ref: b0154e4d08ef5ddbb9e791e4e999eadadc23b614
dir: /src/cg/cst_vc.c/
/* --------------------------------------------------------------- */ /* The HMM-Based Speech Synthesis System (HTS): version 1.1b */ /* HTS Working Group */ /* */ /* Department of Computer Science */ /* Nagoya Institute of Technology */ /* and */ /* Interdisciplinary Graduate School of Science and Engineering */ /* Tokyo Institute of Technology */ /* Copyright (c) 2001-2003 */ /* All Rights Reserved. */ /* */ /* Permission is hereby granted, free of charge, to use and */ /* distribute this software and its documentation without */ /* restriction, including without limitation the rights to use, */ /* copy, modify, merge, publish, distribute, sublicense, and/or */ /* sell copies of this work, and to permit persons to whom this */ /* work is furnished to do so, subject to the following conditions: */ /* */ /* 1. The code must retain the above copyright notice, this list */ /* of conditions and the following disclaimer. */ /* */ /* 2. Any modifications must be clearly marked as such. */ /* */ /* NAGOYA INSTITUTE OF TECHNOLOGY, TOKYO INSITITUTE OF TECHNOLOGY, */ /* HTS WORKING GROUP, AND THE CONTRIBUTORS TO THIS WORK DISCLAIM */ /* ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL */ /* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT */ /* SHALL NAGOYA INSTITUTE OF TECHNOLOGY, TOKYO INSITITUTE OF */ /* TECHNOLOGY, HTS WORKING GROUP, NOR THE CONTRIBUTORS BE LIABLE */ /* FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY */ /* DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, */ /* WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTUOUS */ /* ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR */ /* PERFORMANCE OF THIS SOFTWARE. */ /* */ /* --------------------------------------------------------------- */ /* This is Zen's MLSA filter as ported by Toda to festvox vc */ /* and back ported into hts/festival so we can do MLSA filtering */ /* If I took more time I could probably make this use the same as */ /* as the other code in this directory -- awb@cs.cmu.edu 03JAN06 */ /* --------------------------------------------------------------- */ /* and then ported into Flite (November 2007 awb@cs.cmu.edu) */ /*********************************************************************/ /* */ /* vector (etc) code common to mlpg and mlsa */ /*-------------------------------------------------------------------*/ #include "cst_alloc.h" #include "cst_string.h" #include "cst_math.h" #include "cst_vc.h" /* from vector.cc */ LVECTOR xlvalloc(long length) { LVECTOR x; length = MAX(length, 0); x = cst_alloc(struct LVECTOR_STRUCT,1); x->data = cst_alloc(long,MAX(length, 1)); x->imag = NULL; x->length = length; return x; } void xlvfree(LVECTOR x) { if (x != NULL) { if (x->data != NULL) { cst_free(x->data); } if (x->imag != NULL) { cst_free(x->imag); } cst_free(x); } return; } DVECTOR xdvalloc(long length) { DVECTOR x; length = MAX(length, 0); x = cst_alloc(struct DVECTOR_STRUCT,1); x->data = cst_alloc(double,MAX(length, 1)); x->imag = NULL; x->length = length; return x; } void xdvfree(DVECTOR x) { if (x != NULL) { if (x->data != NULL) { cst_free(x->data); } if (x->imag != NULL) { cst_free(x->imag); } cst_free(x); } return; } void dvialloc(DVECTOR x) { if (x->imag != NULL) { cst_free(x->imag); } x->imag = cst_alloc(double,x->length); return; } DVECTOR xdvcut(DVECTOR x, long offset, long length) { long k; long pos; DVECTOR y; y = xdvalloc(length); if (x->imag != NULL) { dvialloc(y); } for (k = 0; k < y->length; k++) { pos = k + offset; if (pos >= 0 && pos < x->length) { y->data[k] = x->data[pos]; if (y->imag != NULL) { y->imag[k] = x->imag[pos]; } } else { y->data[k] = 0.0; if (y->imag != NULL) { y->imag[k] = 0.0; } } } return y; } DMATRIX xdmalloc(long row, long col) { DMATRIX matrix; int i; matrix = cst_alloc(struct DMATRIX_STRUCT,1); matrix->data = cst_alloc(double *,row); for (i=0; i<row; i++) matrix->data[i] = cst_alloc(double,col); matrix->imag = NULL; matrix->row = row; matrix->col = col; return matrix; } void xdmfree(DMATRIX matrix) { int i; if (matrix != NULL) { if (matrix->data != NULL) { for (i=0; i<matrix->row; i++) cst_free(matrix->data[i]); cst_free(matrix->data); } if (matrix->imag != NULL) { for (i=0; i<matrix->row; i++) cst_free(matrix->imag[i]); cst_free(matrix->imag); } cst_free(matrix); } return; } DVECTOR xdvinit(double j, double incr, double n) { long k; long num; DVECTOR x; if ((incr > 0.0 && j > n) || (incr < 0.0 && j < n)) { x = xdvnull(); return x; } if (incr == 0.0) { num = (long)n; if (num <= 0) { x = xdvnull(); return x; } } else { num = LABS((long)((n - j) / incr)) + 1; } /* memory allocate */ x = xdvalloc(num); /* initailize data */ for (k = 0; k < x->length; k++) { x->data[k] = j + (k * incr); } return x; } /* from voperate.cc */ double dvmax(DVECTOR x, long *index) { long k; long ind; double max; ind = 0; max = x->data[ind]; for (k = 1; k < x->length; k++) { if (max < x->data[k]) { ind = k; max = x->data[k]; } } if (index != NULL) { *index = ind; } return max; } double dvmin(DVECTOR x, long *index) { long k; long ind; double min; ind = 0; min = x->data[ind]; for (k = 1; k < x->length; k++) { if (min > x->data[k]) { ind = k; min = x->data[k]; } } if (index != NULL) { *index = ind; } return min; } double dvsum(DVECTOR x) { long k; double sum; for (k = 0, sum = 0.0; k < x->length; k++) { sum += x->data[k]; } return sum; }