void jit_noise_calculate_ndim(t_jit_noise_vecdata *vecdata, long dimcount, long *dim, long planecount, t_jit_matrix_info *out_minfo, char *bop) { long i,n; char *op; t_jit_op_info out_opinfo; if (dimcount<1) return; //safety switch(dimcount) { case 1: dim[1]=1; case 2: //flatten planes - treat as single plane data for speed...ALWAYS n = dim[0]; out_opinfo.stride = 1; n *= planecount; planecount = 1; if (out_minfo->type==_jit_sym_char) { for (i=0; i<dim[1]; i++) { vecdata->randlast = jit_rand(); out_opinfo.p = bop + i*out_minfo->dimstride[1]; jit_noise_vector_char(n,vecdata,&out_opinfo); } } else if (out_minfo->type==_jit_sym_long) { for (i=0; i<dim[1]; i++) { vecdata->randlast = jit_rand(); out_opinfo.p = bop + i*out_minfo->dimstride[1]; jit_noise_vector_long(n,vecdata,&out_opinfo); } } else if (out_minfo->type==_jit_sym_float32) { for (i=0; i<dim[1]; i++) { vecdata->randlast = jit_rand(); out_opinfo.p = bop + i*out_minfo->dimstride[1]; jit_noise_vector_float32(n,vecdata,&out_opinfo); } } else if (out_minfo->type==_jit_sym_float64) { for (i=0; i<dim[1]; i++) { vecdata->randlast = jit_rand(); out_opinfo.p = bop + i*out_minfo->dimstride[1]; jit_noise_vector_float64(n,vecdata,&out_opinfo); } } break; default: for (i=0; i<dim[dimcount-1]; i++) { op = bop + i*out_minfo->dimstride[dimcount-1]; jit_noise_calculate_ndim(vecdata,dimcount-1,dim,planecount,out_minfo,op); } } }
t_jit_err jit_SDIF_buffer_getvecdata(t_jit_SDIF_buffer *x, t_jit_SDIF_buffer_vecdata *vd){ if (x&&vd) { vd->randlast = jit_rand(); return JIT_ERR_NONE; } else { return JIT_ERR_INVALID_PTR; } }
t_jit_err jit_noise_getvecdata(t_jit_noise *x, t_jit_noise_vecdata *vd) { if (x&&vd) { vd->randlast = jit_rand(); return JIT_ERR_NONE; } else { return JIT_ERR_INVALID_PTR; } }
double RandomInt(double minRange, double maxRange) { double t, result; t = (double)(jit_rand() & 0x0000FFFF)/(double)(0x0000FFFF); result = (t * (maxRange - minRange)) + minRange; return(result); }