#include "layer3.h" #include //#include extern IS_SF_INFO m_is_sf_info; extern int m_ms_mode, m_is_mode; extern int m_sfBandIndex[2][22];// [long/short][cb] extern int m_nBand[2][22]; /* intensity stereo */ /* if ms mode quant pre-scales all values by 1.0/sqrt(2.0) ms_mode in table compensates */ /* [ms_mode 0/1][sf][left/right] */ static float lr[2][8][2]; /* lr2[intensity_scale][ms_mode][sflen_offset+sf][left/right] */ static float lr2[2][2][64][2]; /*-------*msis_init_addr() pi = 4.0*atan(1.0); t = pi/12.0; for(i=0;i<7;i++) { s = sin(i*t); c = cos(i*t); // ms_mode = 0 lr[0][i][0] = (float)(s/(s+c)); lr[0][i][1] = (float)(c/(s+c)); // ms_mode = 1 lr[1][i][0] = (float)(sqrt(2.0)*(s/(s+c))); lr[1][i][1] = (float)(sqrt(2.0)*(c/(s+c))); } //sf = 7 //ms_mode = 0 lr[0][i][0] = 1.0f; lr[0][i][1] = 0.0f; // ms_mode = 1, in is bands is routine does ms processing lr[1][i][0] = 1.0f; lr[1][i][1] = 1.0f; ------------*/ /*===============================================================*/ void msis_init1() { int i; double s, c; double pi; double t; pi = 4.0 * atan(1.0); t = pi / 12.0; for (i = 0; i < 7; i++) { s = sin(i * t); c = cos(i * t); /* ms_mode = 0 */ lr[0][i][0] = (float) (s / (s + c)); lr[0][i][1] = (float) (c / (s + c)); /* ms_mode = 1 */ lr[1][i][0] = (float) (sqrt(2.0) * (s / (s + c))); lr[1][i][1] = (float) (sqrt(2.0) * (c / (s + c))); } /* sf = 7 */ /* ms_mode = 0 */ lr[0][i][0] = 1.0f; lr[0][i][1] = 0.0f; /* ms_mode = 1, in is bands is routine does ms processing */ lr[1][i][0] = 1.0f; lr[1][i][1] = 1.0f; /*------- for(i=0;i<21;i++) m_nBand[0][i] = sfBandTable[sr_index].l[i+1] - sfBandTable[sr_index].l[i]; for(i=0;i<12;i++) m_nBand[1][i] = sfBandTable[sr_index].s[i+1] - sfBandTable[sr_index].s[i]; -------------*/ } /*===============================================================*/ void msis_init2() { int k, n; double t; int intensity_scale, ms_mode, sf, sflen; float ms_factor[2]; ms_factor[0] = 1.0; ms_factor[1] = (float) sqrt(2.0); /* intensity stereo MPEG2 */ /* lr2[intensity_scale][ms_mode][sflen_offset+sf][left/right] */ for (intensity_scale = 0; intensity_scale < 2; intensity_scale++) { t = pow_test(2.0, -0.25 * (1 + intensity_scale)); for (ms_mode = 0; ms_mode < 2; ms_mode++) { n = 1; k = 0; for (sflen = 0; sflen < 6; sflen++) { for (sf = 0; sf < (n - 1); sf++, k++) { if (sf == 0) { lr2[intensity_scale][ms_mode][k][0] = ms_factor[ms_mode] * 1.0f; lr2[intensity_scale][ms_mode][k][1] = ms_factor[ms_mode] * 1.0f; } else if ((sf & 1)) { lr2[intensity_scale][ms_mode][k][0] = (float) (ms_factor[ms_mode] * pow_test(t, (sf + 1) / 2)); lr2[intensity_scale][ms_mode][k][1] = ms_factor[ms_mode] * 1.0f; } else { lr2[intensity_scale][ms_mode][k][0] = ms_factor[ms_mode] * 1.0f; lr2[intensity_scale][ms_mode][k][1] = (float) (ms_factor[ms_mode] * pow_test(t, sf / 2)); } } /* illegal is_pos used to do ms processing */ if (ms_mode == 0) { /* ms_mode = 0 */ lr2[intensity_scale][ms_mode][k][0] = 1.0f; lr2[intensity_scale][ms_mode][k][1] = 0.0f; } else { /* ms_mode = 1, in is bands is routine does ms processing */ lr2[intensity_scale][ms_mode][k][0] = 1.0f; lr2[intensity_scale][ms_mode][k][1] = 1.0f; } k++; n = n + n; } } } } void msis_init() { msis_init1(); msis_init2(); } /*===============================================================*/ void ms_process(float x[][1152], int n) /* sum-difference stereo */ { int i; float xl, xr; /*-- note: sqrt(2) done scaling by dequant ---*/ for (i = 0; i < n; i++) { xl = x[0][i] + x[1][i]; xr = x[0][i] - x[1][i]; x[0][i] = xl; x[1][i] = xr; } return; } void is_process1(float x[][1152], /* intensity stereo */ SCALE_FACTOR* sf, CB_INFO cb_info[2], /* [ch] */ int nsamp) { int i, j, n, cb, w; float fl, fr; int m; int isf; float fls[3], frs[3]; int cb0; cb0 = cb_info[1].cbmax; /* start at end of right */ i = m_sfBandIndex[cb_info[1].cbtype][cb0]; cb0++; m = nsamp - i; /* process to len of left */ if (cb_info[1].cbtype) goto short_blocks; /*------------------------*/ /* long_blocks: */ for (cb = cb0; cb < 21; cb++) { isf = sf->l[cb]; n = m_nBand[0][cb]; fl = lr[m_ms_mode][isf][0]; fr = lr[m_ms_mode][isf][1]; for (j = 0; j < n; j++, i++) { if (--m < 0) goto exit; x[1][i] = fr * x[0][i]; x[0][i] = fl * x[0][i]; } } return; /*------------------------*/ short_blocks: for (cb = cb0; cb < 12; cb++) { for (w = 0; w < 3; w++) { isf = sf->s[w][cb]; fls[w] = lr[m_ms_mode][isf][0]; frs[w] = lr[m_ms_mode][isf][1]; } n = m_nBand[1][cb]; for (j = 0; j < n; j++) { m -= 3; if (m < 0) goto exit; x[1][i] = frs[0] * x[0][i]; x[0][i] = fls[0] * x[0][i]; x[1][1 + i] = frs[1] * x[0][1 + i]; x[0][1 + i] = fls[1] * x[0][1 + i]; x[1][2 + i] = frs[2] * x[0][2 + i]; x[0][2 + i] = fls[2] * x[0][2 + i]; i += 3; } } exit: return; } typedef float ARRAY2[2]; void is_process2(float x[][1152], /* intensity stereo */ SCALE_FACTOR* sf, CB_INFO cb_info[2], /* [ch] */ int nsamp) { int i, j, k, n, cb, w; float fl, fr; int m; int isf; int il[21]; int tmp; int r; ARRAY2 *lr; int cb0, cb1; lr = lr2[m_is_sf_info.intensity_scale][m_ms_mode]; if (cb_info[1].cbtype) goto short_blocks; /*------------------------*/ /* long_blocks: */ cb0 = cb_info[1].cbmax; /* start at end of right */ i = m_sfBandIndex[0][cb0]; m = nsamp - i; /* process to len of left */ /* gen sf info */ for (k = r = 0; r < 3; r++) { tmp = (1 << m_is_sf_info.slen[r]) - 1; for (j = 0; j < m_is_sf_info.nr[r]; j++, k++) il[k] = tmp; } for (cb = cb0 + 1; cb < 21; cb++) { isf = il[cb] + sf->l[cb]; // X-MaD 27-02-02 if (isf < 0) { isf = 0; } fl = 0; fr = 0; //try //{ fl = lr[isf][0]; fr = lr[isf][1]; n = m_nBand[0][cb]; //} //catch(...) //{ // isf = 0; //} // X-MaD 27-02-02 for (j = 0; j < n; j++, i++) { if (--m < 0) { goto exit; } x[1][i] = fr * x[0][i]; x[0][i] = fl * x[0][i]; } } return; /*------------------------*/ short_blocks: for (k = r = 0; r < 3; r++) { tmp = (1 << m_is_sf_info.slen[r]) - 1; for (j = 0; j < m_is_sf_info.nr[r]; j++, k++) il[k] = tmp; } for (w = 0; w < 3; w++) { cb0 = cb_info[1].cbmax_s[w]; /* start at end of right */ i = m_sfBandIndex[1][cb0] + w; cb1 = cb_info[0].cbmax_s[w]; /* process to end of left */ for (cb = cb0 + 1; cb <= cb1; cb++) { isf = il[cb] + sf->s[w][cb]; fl = lr[isf][0]; fr = lr[isf][1]; n = m_nBand[1][cb]; for (j = 0; j < n; j++) { x[1][i] = fr * x[0][i]; x[0][i] = fl * x[0][i]; i += 3; } } } exit: return; }