ref: 21ae07faf06daee0ced8e6f8f9b8ae8dba006b96
dir: /lpc10/placea.c/
/* $Log: placea.c,v $ Revision 1.2 2007/04/18 14:00:38 rrt Remove $Log tokens and associated log messages (in many files, several copies of every log message were being written) and lots of warnings. Revision 1.1 2007/04/16 21:57:47 rrt LPC-10 support, documentation still to come; I wanted to land the code before 14.0.0 went into test, and I'll be busy tomorrow. Not highly tested either, but it's just a format, doesn't interfere with anything else, and I'll get on that case before we go stable. * Revision 1.1 1996/08/19 22:31:07 jaf * Initial revision * */ /* -- translated by f2c (version 19951025). You must link the resulting object file with the libraries: -lf2c -lm (in that order) */ #include "f2c.h" extern int placea_(integer *ipitch, integer *voibuf, integer *obound, integer *af, integer *vwin, integer *awin, integer *ewin, integer *lframe, integer *maxwin); /* *********************************************************************** */ /* PLACEA Version 48 */ /* Revision 1.1 1996/08/19 22:31:07 jaf * Initial revision * */ /* Revision 1.5 1996/03/19 20:41:55 jaf */ /* Added some conditions satisfied by the output values in EWIN. */ /* Revision 1.4 1996/03/19 20:24:17 jaf */ /* Added some conditions satisfied by the output values in AWIN. */ /* Revision 1.3 1996/03/18 21:40:04 jaf */ /* Just added a few comments about which array indices of the arguments */ /* are used, and mentioning that this subroutine has no local state. */ /* Revision 1.2 1996/03/13 16:43:09 jaf */ /* Comments added explaining that none of the local variables of this */ /* subroutine need to be saved from one invocation to the next. */ /* Revision 1.1 1996/02/07 14:48:31 jaf */ /* Initial revision */ /* *********************************************************************** */ /* Input: */ /* IPITCH */ /* VOIBUF */ /* Indices (2,AF-2), (1,AF-1), (2,AF-1), (1,AF), and (2,AF) read.*/ /* All other indices untouched. */ /* OBOUND */ /* AF */ /* VWIN */ /* Indices (1,AF) and (2,AF) read. */ /* All other indices untouched. */ /* LFRAME */ /* MAXWIN */ /* Input/Output: */ /* AWIN */ /* Index (1,AF-1) read. */ /* Indices (1,AF) and (2,AF) written, and then read. */ /* All other indices untouched. */ /* In all cases (except possibly one), the final values will */ /* satisfy the condition: AWIN(2,AF)-AWIN(1,AF)+1 = MAXWIN. */ /* In that other case, */ /* AWIN(1,AF)=VWIN(1,AF) and AWIN(2,AF)=VWIN(2,AF). */ /* Output: */ /* EWIN */ /* Indices (1,AF) and (2,AF) written. */ /* All other indices untouched. */ /* In all cases, the final values will satisfy the condition: */ /* AWIN(1,AF) .LE. EWIN(1,AF) .LE. EWIN(2,AF) .LE. AWIN(2,AF) */ /* In other words, the energy window is a sub-window of */ /* the analysis window. */ /* This subroutine has no local state. */ /* Subroutine */ int placea_(integer *ipitch, integer *voibuf, integer * obound, integer *af, integer *vwin, integer *awin, integer *ewin, integer *lframe, integer *maxwin) { /* System generated locals */ real r__1; /* Builtin functions */ integer i_nint(real *); /* Local variables */ logical allv, winv; integer i__, j, k, l, hrange; logical ephase; integer lrange; /* Arguments */ /* Local variables that need not be saved */ /* Parameter adjustments */ ewin -= 3; awin -= 3; vwin -= 3; --voibuf; /* Function Body */ lrange = (*af - 2) * *lframe + 1; hrange = *af * *lframe; /* Place the Analysis window based on the voicing window */ /* placement, onsets, tentative voicing decision, and pitch. */ /* Case 1: Sustained Voiced Speech */ /* If the five most recent voicing decisions are */ /* voiced, then the window is placed phase-synchronously with the */ /* previous window, as close to the present voicing window if possible. */ /* If onsets bound the voicing window, then preference is given to */ /* a phase-synchronous placement which does not overlap these onsets. */ /* Case 2: Voiced Transition */ /* If at least one voicing decision in AF is voicied, and there are no */ /* onsets, then the window is placed as in case 1. */ /* Case 3: Unvoiced Speech or Onsets */ /* If both voicing decisions in AF are unvoiced, or there are onsets, */ /* then the window is placed coincident with the voicing window. */ /* Note: During phase-synchronous placement of windows, the length */ /* is not altered from MAXWIN, since this would defeat the purpose */ /* of phase-synchronous placement. */ /* Check for case 1 and case 2 */ allv = voibuf[((*af - 2) << 1) + 2] == 1; allv = allv && voibuf[((*af - 1) << 1) + 1] == 1; allv = allv && voibuf[((*af - 1) << 1) + 2] == 1; allv = allv && voibuf[(*af << 1) + 1] == 1; allv = allv && voibuf[(*af << 1) + 2] == 1; winv = voibuf[(*af << 1) + 1] == 1 || voibuf[(*af << 1) + 2] == 1; if (allv || (winv && *obound == 0)) { /* APHASE: Phase synchronous window placement. */ /* Get minimum lower index of the window. */ i__ = (lrange + *ipitch - 1 - awin[((*af - 1) << 1) + 1]) / *ipitch; i__ *= *ipitch; i__ += awin[((*af - 1) << 1) + 1]; /* L = the actual length of this frame's analysis window. */ l = *maxwin; /* Calculate the location where a perfectly centered window would star t. */ k = (vwin[(*af << 1) + 1] + vwin[(*af << 1) + 2] + 1 - l) / 2; /* Choose the actual location to be the pitch multiple closest to this . */ r__1 = (real) (k - i__) / *ipitch; awin[(*af << 1) + 1] = i__ + i_nint(&r__1) * *ipitch; awin[(*af << 1) + 2] = awin[(*af << 1) + 1] + l - 1; /* If there is an onset bounding the right of the voicing window and t he */ /* analysis window overlaps that, then move the analysis window backwa rd */ /* to avoid this onset. */ if (*obound >= 2 && awin[(*af << 1) + 2] > vwin[(*af << 1) + 2]) { awin[(*af << 1) + 1] -= *ipitch; awin[(*af << 1) + 2] -= *ipitch; } /* Similarly for the left of the voicing window. */ if ((*obound == 1 || *obound == 3) && awin[(*af << 1) + 1] < vwin[(* af << 1) + 1]) { awin[(*af << 1) + 1] += *ipitch; awin[(*af << 1) + 2] += *ipitch; } /* If this placement puts the analysis window above HRANGE, then */ /* move it backward an integer number of pitch periods. */ while(awin[(*af << 1) + 2] > hrange) { awin[(*af << 1) + 1] -= *ipitch; awin[(*af << 1) + 2] -= *ipitch; } /* Similarly if the placement puts the analysis window below LRANGE. */ while(awin[(*af << 1) + 1] < lrange) { awin[(*af << 1) + 1] += *ipitch; awin[(*af << 1) + 2] += *ipitch; } /* Make Energy window be phase-synchronous. */ ephase = TRUE_; /* Case 3 */ } else { awin[(*af << 1) + 1] = vwin[(*af << 1) + 1]; awin[(*af << 1) + 2] = vwin[(*af << 1) + 2]; ephase = FALSE_; } /* RMS is computed over an integer number of pitch periods in the analysis */ /*window. When it is not placed phase-synchronously, it is placed as clos e*/ /* as possible to onsets. */ j = (awin[(*af << 1) + 2] - awin[(*af << 1) + 1] + 1) / *ipitch * *ipitch; if (j == 0 || ! winv) { ewin[(*af << 1) + 1] = vwin[(*af << 1) + 1]; ewin[(*af << 1) + 2] = vwin[(*af << 1) + 2]; } else if (! ephase && *obound == 2) { ewin[(*af << 1) + 1] = awin[(*af << 1) + 2] - j + 1; ewin[(*af << 1) + 2] = awin[(*af << 1) + 2]; } else { ewin[(*af << 1) + 1] = awin[(*af << 1) + 1]; ewin[(*af << 1) + 2] = awin[(*af << 1) + 1] + j - 1; } return 0; } /* placea_ */