#' Print regression results according to STROBE #' #' Printable table of linear regression analysis of group vs var for meas. By group. #' @param meas outcome meassure variable name in data-data.frame as a string. Can be numeric or factor. Result is calculated accordingly. #' @param var exposure variable to compare against (active vs placebo). As string. #' @param adj variables to adjust for, as string. #' @param data dataframe of data. #' @param dec decimals for results, standard is set to 2. Mean and sd is dec-1. #' @keywords strobe olr #' @export #' @examples #' strobe_olr() strobe_olr<-function(meas,var,adj,data,dec=2){ #' Ønskeliste: #' #' - Sum af alle, der indgår (Overall N) #' - Ryd op i kode, der der er overflødig %-regning, alternativt, så fiks at NA'er ikke skal regnes med. #' require(MASS) require(dplyr) d<-data m<-d[,c(meas)] v<-d[,c(var)] ads<-d[,c(adj)] dat<-data.frame(m,v,ads) df<-data.frame(matrix(ncol=4)) mn <- polr(m ~ v, data = dat, Hess=TRUE) ma <- polr(m ~ ., data = dat, Hess=TRUE) ctable <- coef(summary(mn)) pa <- pnorm(abs(ctable[, "t value"]), lower.tail = FALSE) * 2 pa<-ifelse(pa<0.001,"<0.001",round(pa,3)) pa <- ifelse(pa<=0.05|pa=="<0.001",paste0("*",pa), ifelse(pa>0.05&pa<=0.1,paste0(".",pa),pa)) pv<-c("REF",pa[1:length(coef(mn))]) co<-round(exp(coef(mn)),dec) ci<-confint(mn) lo<-round(exp(ci[,1]),dec) up<-round(exp(ci[,2]),dec) or_ci<-c("REF",paste0(co," (",lo," to ",up,")")) nr<-c() for (r in 1:length(levels(dat[,2]))){ vr<-levels(dat[,2])[r] dr<-dat[dat[,2]==vr,] n<-as.numeric(nrow(dr)) ## Af en eller anden grund bliver der talt for mange med. # nall<-as.numeric(nrow(dat[!is.na(dat[,2]),])) nl<-levels(m)[r] # pro<-round(n/nall*100,0) # rt<-paste0(n," (",pro,"%)") nr<-rbind(nr,cbind(nl,n)) } mms<-data.frame(cbind(nr,or_ci,pv)) header<-data.frame(matrix(var,ncol = ncol(mms))) names(header)<-names(mms) ls<-list(unadjusted=data.frame(rbind(header,mms))) actable <- coef(summary(ma)) pa <- pnorm(abs(actable[, "t value"]), lower.tail = FALSE) * 2 pa<-ifelse(pa<0.001,"<0.001",round(pa,3)) pa <- ifelse(pa<=0.05|pa=="<0.001",paste0("*",pa), ifelse(pa>0.05&pa<=0.1,paste0(".",pa),pa)) apv<-pa[1:length(coef(ma))] aco<-round(exp(coef(ma)),dec) aci<-round(exp(confint(ma)),dec) alo<-aci[,1] aup<-aci[,2] aor_ci<-paste0(aco," (",alo," to ",aup,")") dat2<-dat[,-1] # names(dat2)<-c(var,names(ads)) nq<-c() for (i in 1:ncol(dat2)){ if (is.factor(dat2[,i])){ vec<-dat2[,i] ns<-names(dat2)[i] for (r in 1:length(levels(vec))){ vr<-levels(vec)[r] dr<-vec[vec==vr] n<-as.numeric(length(dr)) # nall<-as.numeric(nrow(dat[!is.na(dat2[,c(ns)]),])) nl<-paste0(ns,levels(vec)[r]) # pro<-round(n/nall*100,0) # rt<-paste0(n," (",pro,"%)") nq<-rbind(nq,cbind(nl,n)) } } if (!is.factor(dat2[,i])){ num<-dat2[,i] ns<-names(dat2)[i] nall<-as.numeric(nrow(dat[!is.na(dat2[,c(ns)]),])) nq<-rbind(nq,cbind(ns,nall)) } } rnames<-c() for (i in 1:ncol(dat2)){ if (is.factor(dat2[,i])){ rnames<-c(rnames,names(dat2)[i],paste0(names(dat2)[i],levels(dat2[,i]))) } if (!is.factor(dat2[,i])){ rnames<-c(rnames,paste0(names(dat2)[i],".all"),names(dat2)[i]) } } res<-cbind(aor_ci,apv) rest<-data.frame(names=row.names(res),res,stringsAsFactors = F) numb<-data.frame(names=nq[,c("nl")],N=nq[,c("n")],stringsAsFactors = F) namt<-data.frame(names=rnames,stringsAsFactors = F) coll<-left_join(left_join(namt,numb,by="names"),rest,by="names") header<-data.frame(matrix("Adjusted",ncol = ncol(coll))) names(header)<-names(coll) ls$adjusted<-data.frame(rbind(header,coll)) fnames<-c("Variable","N","OR (95 % CI)","p value") names(ls$unadjusted)<-fnames names(ls$adjusted)<-fnames return(ls) }