// sugar.cpp: Rcpp R/C++ interface class library -- sugar unit tests // // Copyright (C) 2012 - 2022 Dirk Eddelbuettel and Romain Francois // // This file is part of Rcpp. // // Rcpp is free software: you can redistribute it and/or modify it // under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 2 of the License, or // (at your option) any later version. // // Rcpp is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with Rcpp. If not, see . #include using namespace Rcpp ; template #if __cplusplus < 201103L class square : public std::unary_function { #else class square : public std::function { #endif public: T operator()( T t) const { return t*t ; } } ; double raw_square( double x){ return x*x; } // [[Rcpp::export]] List runit_abs( NumericVector xx, IntegerVector yy ){ return List::create( abs(xx), abs(yy) ) ; } // [[Rcpp::export]] LogicalVector runit_all_one_less( NumericVector xx ){ return all( xx < 5.0 ) ; } // [[Rcpp::export]] LogicalVector runit_all_one_greater( NumericVector xx ){ return all( xx > 5.0 ) ; } // [[Rcpp::export]] LogicalVector runit_all_one_less_or_equal( NumericVector xx ){ return all( xx <= 5.0 ) ; } // [[Rcpp::export]] LogicalVector runit_all_one_greater_or_equal( NumericVector xx ){ return all( xx >= 5.0 ) ; } // [[Rcpp::export]] LogicalVector runit_all_one_equal( NumericVector xx ){ return all( xx == 5.0 ) ; } // [[Rcpp::export]] LogicalVector runit_all_not_equal_one( NumericVector xx ){ return all( xx != 5.0 ) ; } // [[Rcpp::export]] LogicalVector runit_all_less( NumericVector xx, NumericVector yy){ return all( xx < yy ) ; } // [[Rcpp::export]] LogicalVector runit_all_greater( NumericVector xx, NumericVector yy ){ return all( xx > yy ) ; } // [[Rcpp::export]] LogicalVector runit_all_less_or_equal( NumericVector xx, NumericVector yy){ return all( xx <= yy ) ; } // [[Rcpp::export]] LogicalVector runit_all_greater_or_equal( NumericVector xx, NumericVector yy){ return all( xx >= yy ) ; } // [[Rcpp::export]] LogicalVector runit_all_equal( NumericVector xx, NumericVector yy){ return all( xx == yy ) ; } // [[Rcpp::export]] LogicalVector runit_all_not_equal( NumericVector xx, NumericVector yy){ return all( xx != yy ) ; } // [[Rcpp::export]] LogicalVector runit_any_less( NumericVector xx, NumericVector yy){ return any( xx < yy ) ; } // [[Rcpp::export]] LogicalVector runit_any_greater( NumericVector xx, NumericVector yy ){ return any( xx > yy ) ; } // [[Rcpp::export]] LogicalVector runit_any_less_or_equal( NumericVector xx, NumericVector yy ){ return any( xx <= yy ) ; } // [[Rcpp::export]] LogicalVector runit_any_greater_or_equal( NumericVector xx, NumericVector yy){ return any( xx >= yy ) ; } // [[Rcpp::export]] LogicalVector runit_any_equal( NumericVector xx, NumericVector yy){ return any( xx == yy ) ; } // [[Rcpp::export]] LogicalVector runit_any_not_equal( NumericVector xx, NumericVector yy){ return any( xx != yy ) ; } // [[Rcpp::export]] LogicalVector runit_constructor( NumericVector xx, NumericVector yy ){ LogicalVector res( xx < yy ) ; return res ; } // [[Rcpp::export]] LogicalVector runit_assignment( NumericVector xx, NumericVector yy ){ LogicalVector res; res = xx < yy ; return res ; } // [[Rcpp::export]] NumericVector runit_diff( NumericVector xx){ NumericVector res = diff( xx ); return res ; } // [[Rcpp::export]] IntegerVector runit_diff_int(IntegerVector xx) { IntegerVector res = diff(xx); return res; } // [[Rcpp::export]] NumericVector runit_diff_ifelse( LogicalVector pred, NumericVector xx, NumericVector yy){ NumericVector res = ifelse( pred, diff(xx), diff(yy) ); return res ; } // [[Rcpp::export]] List runit_exp( NumericVector xx, IntegerVector yy ){ return List::create( exp(xx), exp(yy) ) ; } // [[Rcpp::export]] List runit_floor( NumericVector xx, IntegerVector yy ){ return List::create( floor(xx), floor(yy) ) ; } // [[Rcpp::export]] List runit_ceil( NumericVector xx, IntegerVector yy){ return List::create( ceil(xx), ceil(yy) ) ; } // [[Rcpp::export]] List runit_pow( NumericVector xx, IntegerVector yy){ return List::create( pow(xx, 3), pow(yy, 2.3) ) ; } // [[Rcpp::export]] List runit_ifelse( NumericVector xx, NumericVector yy){ return List::create( _["vec_vec" ] = ifelse( xx < yy, xx*xx, -(yy*yy) ), _["vec_prim"] = ifelse( xx < yy, 1.0 , -(yy*yy) ), _["prim_vec"] = ifelse( xx < yy, xx*xx, 1.0 ), _["prim_prim"] = ifelse( xx < yy, 1.0, 2.0 ) ) ; } // [[Rcpp::export]] LogicalVector runit_isna( NumericVector xx){ return wrap( is_na( xx ) ) ; } // [[Rcpp::export]] LogicalVector runit_isfinite( NumericVector xx){ return is_finite(xx) ; } // [[Rcpp::export]] LogicalVector runit_isinfinite( NumericVector xx){ return is_infinite(xx) ; } // [[Rcpp::export]] LogicalVector runit_isnan( NumericVector xx){ return is_nan(xx) ; } // [[Rcpp::export]] LogicalVector runit_isna_isna( NumericVector xx ){ return is_na( is_na( xx ) ) ; } // [[Rcpp::export]] LogicalVector runit_any_isna( NumericVector xx){ return any( is_na( xx ) ) ; } // [[Rcpp::export]] NumericVector runit_na_omit( NumericVector xx ){ return na_omit( xx ) ; } // [[Rcpp::export]] List runit_lapply( IntegerVector xx){ List res = lapply( xx, seq_len ); return res ; } // [[Rcpp::export]] List runit_minus( IntegerVector xx ){ return List::create( xx - 10, 10 - xx, xx - xx, noNA( xx ) - 10, 10 - noNA( xx ) ) ; } // [[Rcpp::export]] LogicalVector runit_any_equal_not( NumericVector xx, NumericVector yy){ return any( !( xx == yy) ) ; } // [[Rcpp::export]] List runit_plus( IntegerVector xx ){ return List::create( xx + 10, 10 + xx, xx + xx, xx + xx + xx ) ; } // [[Rcpp::export]] List runit_plus_seqlen(){ return List::create( seq_len(10) + 10, 10 + seq_len(10), seq_len(10) + seq_len(10) ) ; } // [[Rcpp::export]] LogicalVector runit_plus_all( IntegerVector xx ){ return all( (xx+xx) < 10 ) ; } // [[Rcpp::export]] NumericVector runit_pmin( NumericVector xx, NumericVector yy ){ NumericVector res = pmin( xx, yy ); return res ; } // [[Rcpp::export]] List runit_pmin_one( NumericVector xx ){ return List::create( pmin( xx, 5), pmin( 5, xx) ) ; } // [[Rcpp::export]] NumericVector runit_pmax( NumericVector xx, NumericVector yy ){ NumericVector res = pmax( xx, yy ); return res ; } // [[Rcpp::export]] List runit_pmax_one( NumericVector xx ){ return List::create( pmax( xx, 5), pmax( 5, xx) ) ; } // [[Rcpp::export]] NumericVector runit_Range(){ NumericVector xx(8) ; xx[ Range(0,3) ] = exp( seq_len(4) ) ; xx[ Range(4,7) ] = exp( - seq_len(4) ) ; return xx ; } // [[Rcpp::export]] IntegerVector runit_range_plus(int start, int end, int n) { IntegerVector vec = Range(start, end) + n; return vec; } // [[Rcpp::export]] IntegerVector runit_range_minus(int start, int end, int n) { IntegerVector vec = Range(start, end) - n; return vec; } // [[Rcpp::export]] NumericVector runit_sapply( NumericVector xx ){ NumericVector res = sapply( xx, square() ); return res ; } // [[Rcpp::export]] NumericVector runit_sapply_rawfun( NumericVector xx){ NumericVector res = sapply( xx, raw_square ); return res ; } // [[Rcpp::export]] LogicalVector runit_sapply_square( NumericVector xx){ return all( sapply( xx * xx , square() ) < 10.0 ); } // [[Rcpp::export]] List runit_sapply_list( IntegerVector xx){ List res = sapply( xx, seq_len ); return res ; } // [[Rcpp::export]] IntegerVector runit_seqalong( NumericVector xx ){ IntegerVector res = seq_along( xx ); return res ; } // [[Rcpp::export]] IntegerVector runit_seqlen(){ IntegerVector res = seq_len( 10 ); return res ; } // [[Rcpp::export]] List runit_sign( NumericVector xx, IntegerVector yy ){ return List::create( sign( xx ), sign( yy ) ) ; } // [[Rcpp::export]] List runit_times( IntegerVector xx ){ IntegerVector yy = clone( xx ) ; yy[0] = NA_INTEGER ; return List::create( xx * 10, 10 * xx, xx * xx, xx * xx * xx, xx * yy, yy * 10, 10 * yy, NA_INTEGER * xx ) ; } // [[Rcpp::export]] List runit_divides( NumericVector xx ){ return List::create( xx / 10, 10 / xx, xx / xx ) ; } // [[Rcpp::export]] NumericVector runit_unary_minus( NumericVector xx){ NumericVector yy = - xx ; return yy ; } // [[Rcpp::export]] void runit_wrap( NumericVector xx, NumericVector yy, Environment e ){ e["foo"] = xx < yy ; } // [[Rcpp::export]] List runit_complex( ComplexVector cx ){ return List::create( _["Re"] = Re( cx ), _["Im"] = Im( cx ), _["Conj"] = Conj( cx ), _["Mod"] = Mod( cx ), _["Arg"] = Arg( cx ), _["exp"] = exp( cx ), _["log"] = log( cx ), _["sqrt"] = sqrt( cx ), _["cos"] = cos( cx ), _["sin"] = sin( cx ), _["tan"] = tan( cx ), _["acos"] = acos( cx ), _["asin"] = asin( cx ), _["atan"] = atan( cx ), // _["acosh"] = acosh( cx ), _["asinh"] = asinh( cx ), _["atanh"] = atanh( cx ), _["cosh"] = cosh( cx ), _["sinh"] = sinh( cx ), _["tanh"] = tanh( cx ) ) ; } // [[Rcpp::export]] List runit_rep( IntegerVector xx ){ List res = List::create( _["rep"] = rep( xx, 3 ), _["rep_each"] = rep_each( xx, 3 ), _["rep_len"] = rep_len( xx, 12 ), _["rep_prim_double"] = rep( 0.0, 10 ) ) ; return res ; } // [[Rcpp::export]] IntegerVector runit_rev( IntegerVector xx ){ IntegerVector yy = rev( xx * xx ); return yy ; } // [[Rcpp::export]] NumericMatrix runit_outer( NumericVector xx, NumericVector yy){ NumericMatrix m = outer( xx, yy, std::plus() ) ; return m ; } // [[Rcpp::export]] List runit_row( NumericMatrix xx ){ return List::create( _["row"] = row( xx ), _["col"] = col( xx ) ) ; } // [[Rcpp::export]] List runit_head( NumericVector xx ){ return List::create( _["pos"] = head( xx, 5 ), _["neg"] = head( xx, -5 ) ) ; } // [[Rcpp::export]] List runit_tail( NumericVector xx ){ return List::create( _["pos"] = tail( xx, 5 ), _["neg"] = tail( xx, -5 ) ) ; } // [[Rcpp::export]] List runit_diag( NumericVector xx, NumericMatrix mm ){ return List::create( diag( xx ) , diag( mm ), diag( outer( xx, xx, std::plus() ) ) ) ; } // [[Rcpp::export]] List runit_gamma( NumericVector xx ){ return List::create( _["gamma"] = gamma(xx), _["lgamma"] = lgamma(xx), _["digamma"] = digamma(xx), _["trigamma"] = trigamma(xx), _["tetragamma"] = tetragamma(xx), _["pentagamma"] = pentagamma(xx), _["factorial"] = factorial(xx), _["lfactorial"] = lfactorial(xx) ) ; } // [[Rcpp::export]] List runit_choose( NumericVector nn, NumericVector kk ){ return List::create( _["VV"] = choose(nn,kk), _["PV"] = choose(10.0, kk ), _["VP"] = choose(nn, 5.0 ) ) ; } // [[Rcpp::export]] List runit_lchoose( NumericVector nn, NumericVector kk){ return List::create( _["VV"] = lchoose(nn,kk), _["PV"] = lchoose(10.0, kk ), _["VP"] = lchoose(nn, 5.0 ) ) ; } // [[Rcpp::export]] List runit_beta( NumericVector nn, NumericVector kk){ return List::create( _["VV"] = beta(nn,kk), _["PV"] = beta(10.0, kk ), _["VP"] = beta(nn, 5.0 ) ) ; } // [[Rcpp::export]] List runit_psigamma( NumericVector nn, NumericVector kk){ return List::create( _["VV"] = psigamma(nn,kk), _["PV"] = psigamma(10.0, kk ), _["VP"] = psigamma(nn, 5.0 ) ) ; } // [[Rcpp::export]] List runit_lbeta( NumericVector nn, NumericVector kk){ return List::create( _["VV"] = lbeta(nn,kk), _["PV"] = lbeta(10.0, kk ), _["VP"] = lbeta(nn, 5.0 ) ) ; } // [[Rcpp::export]] List runit_log1p( NumericVector xx){ return List::create( _["log1p"] = log1p(xx), _["expm1"] = expm1(xx) ) ; } // [[Rcpp::export]] double runit_sum( NumericVector xx){ return sum( xx ) ; } // [[Rcpp::export]] NumericVector runit_cumsum( NumericVector xx ){ NumericVector res = cumsum( xx ) ; return res ; } // [[Rcpp::export]] List runit_asvector( NumericMatrix z, NumericVector x, NumericVector y){ return List::create( as_vector( z ), as_vector( outer( x , y , std::plus() ) ) ) ; } // [[Rcpp::export]] NumericVector runit_diff_REALSXP_NA( NumericVector x ){ NumericVector res= diff(x) ; return res ; } // [[Rcpp::export]] List runit_trunc( NumericVector xx, IntegerVector yy){ return List::create(trunc(xx), trunc(yy)) ; } // [[Rcpp::export]] NumericVector runit_round( NumericVector xx, int d ){ NumericVector res = round(xx, d); return res ; } // [[Rcpp::export]] NumericVector runit_signif( NumericVector xx, int d ){ NumericVector res = signif(xx, d); return res ; } // [[Rcpp::export]] double runit_RangeIndexer( NumericVector x ){ return max( x[ seq(0, 4) ] ) ; } // [[Rcpp::export]] IntegerVector runit_self_match( CharacterVector x){ return self_match( x ) ; } // [[Rcpp::export]] Rcpp::IntegerVector runit_unique_int(Rcpp::IntegerVector x) { return Rcpp::unique(x); } // [[Rcpp::export]] Rcpp::NumericVector runit_unique_dbl(Rcpp::NumericVector x) { return Rcpp::unique(x); } // [[Rcpp::export]] Rcpp::CharacterVector runit_unique_ch(Rcpp::CharacterVector x) { return Rcpp::unique(x); } // [[Rcpp::export]] Rcpp::CharacterVector runit_sort_unique_ch(Rcpp::CharacterVector x, bool decreasing = false) { return Rcpp::sort_unique(x, decreasing); } // [[Rcpp::export]] IntegerVector runit_table( CharacterVector x){ return table( x ) ; } // [[Rcpp::export]] LogicalVector runit_duplicated( CharacterVector x){ return duplicated( x ) ; } // [[Rcpp::export]] IntegerVector runit_union( IntegerVector x, IntegerVector y){ return union_( x, y) ; } // [[Rcpp::export]] IntegerVector runit_setdiff( IntegerVector x, IntegerVector y){ return setdiff( x, y) ; } // [[Rcpp::export]] bool runit_setequal_integer(IntegerVector x, IntegerVector y) { return setequal(x, y); } // [[Rcpp::export]] bool runit_setequal_character(CharacterVector x, CharacterVector y) { return setequal(x, y); } // [[Rcpp::export]] IntegerVector runit_intersect( IntegerVector x, IntegerVector y){ return intersect( x, y ) ; } // [[Rcpp::export]] NumericVector runit_clamp( double a, NumericVector x, double b){ return clamp( a, x, b ) ; } // [[Rcpp::export]] List vector_scalar_ops( NumericVector xx ){ NumericVector y1 = xx + 2.0; // NB does not work with ints as eg "+ 2L" NumericVector y2 = 2 - xx; NumericVector y3 = xx * 2.0; NumericVector y4 = 2.0 / xx; return List::create(y1, y2, y3, y4); } // [[Rcpp::export]] List vector_scalar_logical( NumericVector xx ){ LogicalVector y1 = xx < 2; LogicalVector y2 = 2 > xx; LogicalVector y3 = xx <= 2; LogicalVector y4 = 2 != xx; return List::create(y1, y2, y3, y4); } // [[Rcpp::export]] List vector_vector_ops( NumericVector xx, NumericVector yy){ NumericVector y1 = xx + yy; NumericVector y2 = yy - xx; NumericVector y3 = xx * yy; NumericVector y4 = yy / xx; return List::create(y1, y2, y3, y4); } // [[Rcpp::export]] List vector_vector_logical( NumericVector xx, NumericVector yy){ LogicalVector y1 = xx < yy; LogicalVector y2 = xx > yy; LogicalVector y3 = xx <= yy; LogicalVector y4 = xx >= yy; LogicalVector y5 = xx == yy; LogicalVector y6 = xx != yy; return List::create(y1, y2, y3, y4, y5, y6); } // Additions made 1 Jan 2015 // [[Rcpp::export]] double meanInteger(Rcpp::IntegerVector x) { return Rcpp::mean(x); } // [[Rcpp::export]] double meanNumeric(Rcpp::NumericVector x) { return(Rcpp::mean(x)); } // [[Rcpp::export]] double meanLogical(Rcpp::LogicalVector x) { return(Rcpp::mean(x)); } // [[Rcpp::export]] Rcomplex meanComplex(Rcpp::ComplexVector x) { return(Rcpp::mean(x)); } // 30 Oct 2015: cumprod, cummin, cummax // [[Rcpp::export]] NumericVector runit_cumprod_nv(NumericVector xx){ NumericVector res = cumprod(xx) ; return res ; } // [[Rcpp::export]] IntegerVector runit_cumprod_iv(IntegerVector xx){ IntegerVector res = cumprod(xx) ; return res ; } // [[Rcpp::export]] ComplexVector runit_cumprod_cv(ComplexVector xx){ ComplexVector res = cumprod(xx) ; return res ; } // [[Rcpp::export]] NumericVector runit_cummin_nv(NumericVector xx){ NumericVector res = cummin(xx) ; return res ; } // [[Rcpp::export]] IntegerVector runit_cummin_iv(IntegerVector xx){ IntegerVector res = cummin(xx) ; return res ; } // [[Rcpp::export]] NumericVector runit_cummax_nv(NumericVector xx){ NumericVector res = cummax(xx) ; return res ; } // [[Rcpp::export]] IntegerVector runit_cummax_iv(IntegerVector xx){ IntegerVector res = cummax(xx) ; return res ; } // 18 January 2016: median // [[Rcpp::export]] double median_dbl(Rcpp::NumericVector x, bool na_rm = false) { return Rcpp::median(x, na_rm); } // [[Rcpp::export]] double median_int(Rcpp::IntegerVector x, bool na_rm = false) { return Rcpp::median(x, na_rm); } // [[Rcpp::export]] Rcomplex median_cx(Rcpp::ComplexVector x, bool na_rm = false) { return Rcpp::median(x, na_rm); } // [[Rcpp::export]] Rcpp::String median_ch(Rcpp::CharacterVector x, bool na_rm = false) { return Rcpp::median(x, na_rm); } // 12 March 2016: cbind // A. Numeric* // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_mm(Rcpp::NumericMatrix m1, Rcpp::NumericMatrix m2) { return Rcpp::cbind(m1, m2); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_mv(Rcpp::NumericMatrix m1, Rcpp::NumericVector v1) { return Rcpp::cbind(m1, v1); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_ms(Rcpp::NumericMatrix m1, double s1) { return Rcpp::cbind(m1, s1); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_vv(Rcpp::NumericVector v1, Rcpp::NumericVector v2) { return Rcpp::cbind(v1, v2); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_vm(Rcpp::NumericVector v1, Rcpp::NumericMatrix m1) { return Rcpp::cbind(v1, m1); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_vs(Rcpp::NumericVector v1, double s1) { return Rcpp::cbind(v1, s1); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_sm(double s1, Rcpp::NumericMatrix m1) { return Rcpp::cbind(s1, m1); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_sv(double s1, Rcpp::NumericVector v1) { return Rcpp::cbind(s1, v1); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind_ss(double s1, double s2) { return Rcpp::cbind(s1, s2); } // [[Rcpp::export]] Rcpp::NumericMatrix n_cbind9(Rcpp::NumericMatrix m1, Rcpp::NumericVector v1, double s1, Rcpp::NumericMatrix m2, Rcpp::NumericVector v2, double s2, Rcpp::NumericMatrix m3, Rcpp::NumericVector v3, double s3) { return Rcpp::cbind(m1, v1, s1, m2, v2, s2, m3, v3, s3); } // B. Integer* // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_mm(Rcpp::IntegerMatrix m1, Rcpp::IntegerMatrix m2) { return Rcpp::cbind(m1, m2); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_mv(Rcpp::IntegerMatrix m1, Rcpp::IntegerVector v1) { return Rcpp::cbind(m1, v1); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_ms(Rcpp::IntegerMatrix m1, int s1) { return Rcpp::cbind(m1, s1); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_vv(Rcpp::IntegerVector v1, Rcpp::IntegerVector v2) { return Rcpp::cbind(v1, v2); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_vm(Rcpp::IntegerVector v1, Rcpp::IntegerMatrix m1) { return Rcpp::cbind(v1, m1); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_vs(Rcpp::IntegerVector v1, int s1) { return Rcpp::cbind(v1, s1); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_sm(int s1, Rcpp::IntegerMatrix m1) { return Rcpp::cbind(s1, m1); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_sv(int s1, Rcpp::IntegerVector v1) { return Rcpp::cbind(s1, v1); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind_ss(int s1, int s2) { return Rcpp::cbind(s1, s2); } // [[Rcpp::export]] Rcpp::IntegerMatrix i_cbind9(Rcpp::IntegerMatrix m1, Rcpp::IntegerVector v1, int s1, Rcpp::IntegerMatrix m2, Rcpp::IntegerVector v2, int s2, Rcpp::IntegerMatrix m3, Rcpp::IntegerVector v3, int s3) { return Rcpp::cbind(m1, v1, s1, m2, v2, s2, m3, v3, s3); } // C. Complex* // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_mm(Rcpp::ComplexMatrix m1, Rcpp::ComplexMatrix m2) { return Rcpp::cbind(m1, m2); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_mv(Rcpp::ComplexMatrix m1, Rcpp::ComplexVector v1) { return Rcpp::cbind(m1, v1); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_ms(Rcpp::ComplexMatrix m1, Rcomplex s1) { return Rcpp::cbind(m1, s1); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_vv(Rcpp::ComplexVector v1, Rcpp::ComplexVector v2) { return Rcpp::cbind(v1, v2); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_vm(Rcpp::ComplexVector v1, Rcpp::ComplexMatrix m1) { return Rcpp::cbind(v1, m1); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_vs(Rcpp::ComplexVector v1, Rcomplex s1) { return Rcpp::cbind(v1, s1); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_sm(Rcomplex s1, Rcpp::ComplexMatrix m1) { return Rcpp::cbind(s1, m1); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_sv(Rcomplex s1, Rcpp::ComplexVector v1) { return Rcpp::cbind(s1, v1); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind_ss(Rcomplex s1, Rcomplex s2) { return Rcpp::cbind(s1, s2); } // [[Rcpp::export]] Rcpp::ComplexMatrix cx_cbind9(Rcpp::ComplexMatrix m1, Rcpp::ComplexVector v1, Rcomplex s1, Rcpp::ComplexMatrix m2, Rcpp::ComplexVector v2, Rcomplex s2, Rcpp::ComplexMatrix m3, Rcpp::ComplexVector v3, Rcomplex s3) { return Rcpp::cbind(m1, v1, s1, m2, v2, s2, m3, v3, s3); } // D. Logical* // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_mm(Rcpp::LogicalMatrix m1, Rcpp::LogicalMatrix m2) { return Rcpp::cbind(m1, m2); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_mv(Rcpp::LogicalMatrix m1, Rcpp::LogicalVector v1) { return Rcpp::cbind(m1, v1); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_ms(Rcpp::LogicalMatrix m1, bool s1) { return Rcpp::cbind(m1, s1); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_vv(Rcpp::LogicalVector v1, Rcpp::LogicalVector v2) { return Rcpp::cbind(v1, v2); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_vm(Rcpp::LogicalVector v1, Rcpp::LogicalMatrix m1) { return Rcpp::cbind(v1, m1); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_vs(Rcpp::LogicalVector v1, bool s1) { return Rcpp::cbind(v1, s1); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_sm(bool s1, Rcpp::LogicalMatrix m1) { return Rcpp::cbind(s1, m1); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_sv(bool s1, Rcpp::LogicalVector v1) { return Rcpp::cbind(s1, v1); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind_ss(bool s1, bool s2) { return Rcpp::cbind(s1, s2); } // [[Rcpp::export]] Rcpp::LogicalMatrix l_cbind9(Rcpp::LogicalMatrix m1, Rcpp::LogicalVector v1, bool s1, Rcpp::LogicalMatrix m2, Rcpp::LogicalVector v2, bool s2, Rcpp::LogicalMatrix m3, Rcpp::LogicalVector v3, bool s3) { return Rcpp::cbind(m1, v1, s1, m2, v2, s2, m3, v3, s3); } // E. Character* // [[Rcpp::export]] Rcpp::CharacterMatrix c_cbind_mm(Rcpp::CharacterMatrix m1, Rcpp::CharacterMatrix m2) { return Rcpp::cbind(m1, m2); } // [[Rcpp::export]] Rcpp::CharacterMatrix c_cbind_mv(Rcpp::CharacterMatrix m1, Rcpp::CharacterVector v1) { return Rcpp::cbind(m1, v1); } // [[Rcpp::export]] Rcpp::CharacterMatrix c_cbind_vv(Rcpp::CharacterVector v1, Rcpp::CharacterVector v2) { return Rcpp::cbind(v1, v2); } // [[Rcpp::export]] Rcpp::CharacterMatrix c_cbind_vm(Rcpp::CharacterVector v1, Rcpp::CharacterMatrix m1) { return Rcpp::cbind(v1, m1); } // [[Rcpp::export]] Rcpp::CharacterMatrix c_cbind6(Rcpp::CharacterMatrix m1, Rcpp::CharacterVector v1, Rcpp::CharacterMatrix m2, Rcpp::CharacterVector v2, Rcpp::CharacterMatrix m3, Rcpp::CharacterVector v3) { return Rcpp::cbind(m1, v1, m2, v2, m3, v3); } // 04 September 2016: rowSums, colSums, rowMeans, colMeans // [[Rcpp::export]] Rcpp::NumericVector dbl_row_sums(Rcpp::NumericMatrix x, bool na_rm = false) { return rowSums(x, na_rm); } // [[Rcpp::export]] Rcpp::IntegerVector int_row_sums(Rcpp::IntegerMatrix x, bool na_rm = false) { return rowSums(x, na_rm); } // [[Rcpp::export]] Rcpp::IntegerVector lgl_row_sums(Rcpp::LogicalMatrix x, bool na_rm = false) { return rowSums(x, na_rm); } // [[Rcpp::export]] Rcpp::ComplexVector cx_row_sums(Rcpp::ComplexMatrix x, bool na_rm = false) { return rowSums(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector dbl_col_sums(Rcpp::NumericMatrix x, bool na_rm = false) { return colSums(x, na_rm); } // [[Rcpp::export]] Rcpp::IntegerVector int_col_sums(Rcpp::IntegerMatrix x, bool na_rm = false) { return colSums(x, na_rm); } // [[Rcpp::export]] Rcpp::IntegerVector lgl_col_sums(Rcpp::LogicalMatrix x, bool na_rm = false) { return colSums(x, na_rm); } // [[Rcpp::export]] Rcpp::ComplexVector cx_col_sums(Rcpp::ComplexMatrix x, bool na_rm = false) { return colSums(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector dbl_row_means(Rcpp::NumericMatrix x, bool na_rm = false) { return rowMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector int_row_means(Rcpp::IntegerMatrix x, bool na_rm = false) { return rowMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector lgl_row_means(Rcpp::LogicalMatrix x, bool na_rm = false) { return rowMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::ComplexVector cx_row_means(Rcpp::ComplexMatrix x, bool na_rm = false) { return rowMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector dbl_col_means(Rcpp::NumericMatrix x, bool na_rm = false) { return colMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector int_col_means(Rcpp::IntegerMatrix x, bool na_rm = false) { return colMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::NumericVector lgl_col_means(Rcpp::LogicalMatrix x, bool na_rm = false) { return colMeans(x, na_rm); } // [[Rcpp::export]] Rcpp::ComplexVector cx_col_means(Rcpp::ComplexMatrix x, bool na_rm = false) { return colMeans(x, na_rm); } // 10 December 2016: sample // [[Rcpp::export]] IntegerVector sample_dot_int(int n, int sz, bool rep = false, sugar::probs_t p = R_NilValue, bool one_based = true) { return sample(n, sz, rep, p, one_based); } // [[Rcpp::export]] IntegerVector sample_int(IntegerVector x, int sz, bool rep = false, sugar::probs_t p = R_NilValue) { return sample(x, sz, rep, p); } // [[Rcpp::export]] NumericVector sample_dbl(NumericVector x, int sz, bool rep = false, sugar::probs_t p = R_NilValue) { return sample(x, sz, rep, p); } // [[Rcpp::export]] CharacterVector sample_chr(CharacterVector x, int sz, bool rep = false, sugar::probs_t p = R_NilValue) { return sample(x, sz, rep, p); } // [[Rcpp::export]] ComplexVector sample_cx(ComplexVector x, int sz, bool rep = false, sugar::probs_t p = R_NilValue) { return sample(x, sz, rep, p); } // [[Rcpp::export]] LogicalVector sample_lgl(LogicalVector x, int sz, bool rep = false, sugar::probs_t p = R_NilValue) { return sample(x, sz, rep, p); } // [[Rcpp::export]] List sample_list(List x, int sz, bool rep = false, sugar::probs_t p = R_NilValue) { return sample(x, sz, rep, p); } // 31 January 2017: upper_tri, lower_tri // [[Rcpp::export]] LogicalMatrix UpperTri(NumericMatrix x, bool diag = false) { return upper_tri(x, diag); } // [[Rcpp::export]] LogicalMatrix LowerTri(NumericMatrix x, bool diag = false) { return lower_tri(x, diag); } // 22 April 2017: trimws // [[Rcpp::export]] CharacterVector vtrimws(CharacterVector x, const char* which = "both") { return trimws(x, which); } // [[Rcpp::export]] CharacterMatrix mtrimws(CharacterMatrix x, const char* which = "both") { return trimws(x, which); } // [[Rcpp::export]] String strimws(String x, const char* which = "both") { return trimws(x, which); } // 21 Jul 2018 min/max tests for int and double // [[Rcpp::export]] int intmin(IntegerVector v) { return min(v); } // [[Rcpp::export]] int intmax(IntegerVector v) { return max(v); } // [[Rcpp::export]] double doublemin(NumericVector v) { return min(v); } // [[Rcpp::export]] double doublemax(NumericVector v) { return max(v); }