Re: [R] hist from a list

Fri, 31 Jul 2020 07:55:43 -0700 

Hello,
I second Michael's opinion. When the post's code is very long, there is a tendency to have less answers. 

Please post the output of


dput(head(bwchist, 30))



It's much shorter code and it recreates the data so we will be able to 
see what's wrong and try to find a solution.


Hope this helps,

Rui Barradas


Às 15:44 de 31/07/2020, Michael Dewey escreveu:

Dear Pedro

Some comments in-line

On 30/07/2020 21:16, Pedro páramo wrote:

Hi all,


I attach my code, the think is I want to make a bar plot the last 
variable

called "bwchist"

  so the X axis are "Accion" and the y axis are "reval" values.


I have prove class(bwchist) and says dataframe but its still a list 
because

it says me

I have prove to unlist,  but it doesnt work

hist(bwchist)
Error in hist.default(bwchist) : 'x' must be numeric



So bwchist is not a numeric variable as hist needs. Aboce you said it 
is a data frame but data frames are not numeric.



For future reference your example is way too long for anyone to go 
through and try to help you. Try next time to reduce it to the 
absolute minimum by removing sections while you still get the error. 
It is also easier to get help if you can remove unnecessary packages.



It is also unreadable because you are posting in HTML and that makes 
the post unreadable as this is a plain text list.


Michael




Or

barplot(bwchist)

Error in barplot.default(bwchist) : 'height' must be a vector or a 
matrix


library(PerformanceAnalytics)
library(dplyr)
library(tibble)
library(lubridate)
library(PerformanceAnalytics)
library(quantmod)
library(ggplot2)
library(png)
library(grid)
library(RCurl)
library(tidyquant)
library(timetk)
library(data.table)



Acciona<- tq_get("ANA.MC",from = '2019-12-31',get = "stock.prices")
ACS<- tq_get("ACS.MC",from = '2019-12-31',get = "stock.prices")
Aena<- tq_get("AENA.MC",from = '2019-12-31',get = "stock.prices")
Amadeus<- tq_get("AMS.MC",from = '2019-12-31',get = "stock.prices")

ArcelorMittal<- tq_get("MTS.MC",from = '2019-12-31',get = 
"stock.prices")

BBVA<- tq_get("BBVA.MC",from = '2019-12-31',get = "stock.prices")
Sabadell<- tq_get("SAB.MC",from = '2019-12-31',get = "stock.prices")
Santander<- tq_get("SAN.MC",from = '2019-12-31',get = "stock.prices")
Bankinter<- tq_get("BKT.MC",from = '2019-12-31',get = "stock.prices")
CaixaBank<- tq_get("CABK.MC",from = '2019-12-31',get = "stock.prices")
Cellnex<- tq_get("CLNX.MC",from = '2019-12-31',get = "stock.prices")
Enagas<- tq_get("ENG.MC",from = '2019-12-31',get = "stock.prices")
ENCE<- tq_get("ENC.MC",from = '2019-12-31',get = "stock.prices")
Endesa<- tq_get("ELE.MC",from = '2019-12-31',get = "stock.prices")
Ferrovial<- tq_get("FER.MC",from = '2019-12-31',get = "stock.prices")
Grifols<- tq_get("GRF.MC",from = '2019-12-31',get = "stock.prices")
Iberdrola<- tq_get("IBE.MC",from = '2019-12-31',get = "stock.prices")
Inditex<- tq_get("ITX.MC",from = '2019-12-31',get = "stock.prices")
Colonial<- tq_get("COL.MC",from = '2019-12-31',get = "stock.prices")
IAG<- tq_get("IAG.MC",from = '2019-12-31',get = "stock.prices")
Mapfre<- tq_get("MAP.MC",from = '2019-12-31',get = "stock.prices")
Melia<- tq_get("MEL.MC",from = '2019-12-31',get = "stock.prices")
Merlin<- tq_get("MRL.MC",from = '2019-12-31',get = "stock.prices")
Naturgy<- tq_get("NTGY.MC",from = '2019-12-31',get = "stock.prices")
REE<- tq_get("REE.MC",from = '2019-12-31',get = "stock.prices")
Repsol<- tq_get("REP.MC",from = '2019-12-31',get = "stock.prices")
SGamesa<- tq_get("SGRE.MC",from = '2019-12-31',get = "stock.prices")
Telefonica<- tq_get("TEF.MC",from = '2019-12-31',get = "stock.prices")
Viscofan<- tq_get("VIS.MC",from = '2019-12-31',get = "stock.prices")
Acerinox<- tq_get("ACX.MC",from = '2019-12-31',get = "stock.prices")
Bankia<- tq_get("BKIA.MC",from = '2019-12-31',get = "stock.prices")
CIE<- tq_get("CIE.MC",from = '2019-12-31',get = "stock.prices")
MasMovil<- tq_get("MAS.MC",from = '2019-12-31',get = "stock.prices")
Almirall<- tq_get("ALM.MC",from = '2019-12-31',get = "stock.prices")
Indra<- tq_get("IDR.MC",from ='2019-12-31',get = "stock.prices")

Indra_daily_returns <- Indra %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Indra_cum_returns <- Indra_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Almirall_daily_returns <- Almirall %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Almirall_cum_returns <- Almirall_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Acciona_daily_returns <- Acciona %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Acciona_cum_returns <- Acciona_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

ACS_daily_returns <- ACS %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
ACS_cum_returns <- ACS_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Aena_daily_returns <- Aena %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Aena_cum_returns <- Aena_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Amadeus_daily_returns <- Amadeus %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Amadeus_cum_returns <- Amadeus_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

ArcelorMittal_daily_returns <- ArcelorMittal %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
ArcelorMittal_cum_returns <- ArcelorMittal_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

BBVA_daily_returns <- BBVA %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
BBVA_cum_returns <- BBVA_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)


Sabadell_daily_returns <- Sabadell %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Sabadell_cum_returns <- Sabadell_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Santander_daily_returns <- Santander %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Santander_cum_returns <- Santander_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)


Bankinter_daily_returns <- Bankinter %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Bankinter_cum_returns <- Bankinter_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

CaixaBank_daily_returns <- CaixaBank %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
CaixaBank_cum_returns <- CaixaBank_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Cellnex_daily_returns <- Cellnex %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Cellnex_cum_returns <- Cellnex_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

CIE_daily_returns <- CIE %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
CIE_cum_returns <- CIE_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

CIE_daily_returns <- CIE %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
CIE_cum_returns <- CIE_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Enagas_daily_returns <- Enagas %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Enagas_cum_returns <- Enagas_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)


ENCE_daily_returns <- ENCE %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
ENCE_cum_returns <- ENCE_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)
Endesa_daily_returns <- Endesa %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Endesa_cum_returns <- Endesa_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)
Ferrovial_daily_returns <- Ferrovial %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Ferrovial_cum_returns <- Ferrovial_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Grifols_daily_returns <- Grifols %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Grifols_cum_returns <- Grifols_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Iberdrola_daily_returns <- Iberdrola %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Iberdrola_cum_returns <- Iberdrola_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Inditex_daily_returns <- Inditex %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Inditex_cum_returns <- Inditex_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Colonial_daily_returns <- Colonial %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Colonial_cum_returns <- Colonial_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

IAG_daily_returns <- IAG %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
IAG_cum_returns <- IAG_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Mapfre_daily_returns <- Mapfre %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Mapfre_cum_returns <- Mapfre_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Melia_daily_returns <- Melia %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Melia_cum_returns <- Melia_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Merlin_daily_returns <- Merlin %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Merlin_cum_returns <- Merlin_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Naturgy_daily_returns <- Naturgy %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Naturgy_cum_returns <- Naturgy_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

REE_daily_returns <- REE %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
REE_cum_returns <- REE_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Repsol_daily_returns <- Repsol %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Repsol_cum_returns <- Repsol_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

SGamesa_daily_returns <- SGamesa %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
SGamesa_cum_returns <- SGamesa_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Telefonica_daily_returns <- Telefonica %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Telefonica_cum_returns <- Telefonica_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Viscofan_daily_returns <- Viscofan %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Viscofan_cum_returns <- Viscofan_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Acerinox_daily_returns <- Acerinox %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Acerinox_cum_returns <- Acerinox_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)


Bankia_daily_returns <- Bankia %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Bankia_cum_returns <- Bankia_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

MasMovil_daily_returns <- MasMovil %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
MasMovil_cum_returns <- MasMovil_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

Indra_daily_returns <- Indra %>%

   tq_transmute(select = adjusted,           # this specifies which 
column

to select
                mutate_fun = periodReturn,   # This specifies what to do
with that column
                period = "daily",      # This argument calculates Daily
returns
                col_rename = "idr_returns") # renames the column
Indra_cum_returns <- Indra_daily_returns %>%
   mutate(cr = cumprod(1 + idr_returns)) %>%      # using the cumprod
function
   mutate(cumulative_returns = cr - 1)

bestworst<-c(Acciona_cum_returns[nrow(Acciona_cum_returns),4],
              ACS_cum_returns[nrow(ACS_cum_returns),4],
              Aena_cum_returns[nrow(Aena_cum_returns),4],
              Amadeus_cum_returns[nrow(Amadeus_cum_returns),4],
ArcelorMittal_cum_returns[nrow(ArcelorMittal_cum_returns),4],
              BBVA_cum_returns[nrow(BBVA_cum_returns),4],
Sabadell_cum_returns[nrow(Sabadell_cum_returns),4],
Santander_cum_returns[nrow(Santander_cum_returns),4],
Bankinter_cum_returns[nrow(Bankinter_cum_returns),4],
CaixaBank_cum_returns[nrow(CaixaBank_cum_returns),4],
              Cellnex_cum_returns[nrow(Cellnex_cum_returns),4],
              Enagas_cum_returns[nrow(Enagas_cum_returns),4],
              ENCE_cum_returns[nrow(ENCE_cum_returns),4],
              Endesa_cum_returns[nrow(Endesa_cum_returns),4],
Ferrovial_cum_returns[nrow(Ferrovial_cum_returns),4],
              Grifols_cum_returns[nrow(Grifols_cum_returns),4],
Iberdrola_cum_returns[nrow(Iberdrola_cum_returns),4],
              Inditex_cum_returns[nrow(Inditex_cum_returns),4],
Colonial_cum_returns[nrow(Colonial_cum_returns),4],
              IAG_cum_returns[nrow(IAG_cum_returns),4],
              Mapfre_cum_returns[nrow(Mapfre_cum_returns),4],
              Melia_cum_returns[nrow(Melia_cum_returns),4],
              Merlin_cum_returns[nrow(Merlin_cum_returns),4],
              Naturgy_cum_returns[nrow(Naturgy_cum_returns),4],
              REE_cum_returns[nrow(REE_cum_returns),4],
              Repsol_cum_returns[nrow(Repsol_cum_returns),4],
              SGamesa_cum_returns[nrow(SGamesa_cum_returns),4],
Telefonica_cum_returns[nrow(Telefonica_cum_returns),4],
Viscofan_cum_returns[nrow(Viscofan_cum_returns),4],
Acerinox_cum_returns[nrow(Acerinox_cum_returns),4],
              Bankia_cum_returns[nrow(Bankia_cum_returns),4],
              CIE_cum_returns[nrow(CIE_cum_returns),4],
MasMovil_cum_returns[nrow(MasMovil_cum_returns),4],
Almirall_cum_returns[nrow(Almirall_cum_returns),4],
              Indra_cum_returns[nrow(Indra_cum_returns),4])

namebw<-c("Acciona",
           "ACS",
           "Aena",
               "Amadeus",
           "ArcelorMittal",
           "BBVA",
           "Sabadell",
           "Santander",
           "Bankinter",
           "CaixaBank",
           "Cellnex",
                "Enagas",
           "ENCE",
                "Endesa",
           "Ferrovial",
                "Grifols",
           "Iberdrola",
                "Inditex",
           "Colonial",
                "IAG",
           "Mapfre",
                "Melia",
           "Merlin",
                "Naturgy",
           "REE",
                "Repsol",
           "SGamesa",
                "Telefonica",
           "Viscofan",
                "Acerinox",
           "Bankia",
                "CIE",
           "MasMovil",
                "Almirall",
           "Indra")


bwfinal <- matrix(bestworst, nrow =35 , ncol = 1)
bwfinal2 <- matrix(namebw, nrow =35 , ncol = 1)

bwc<-cbind(bwfinal2,bwfinal)
colnames(bwc)=c("Accion","reval")
bwc <- as.data.frame(bwc)
colnames(bwchist)=c("Accion","reval")
bwchist <-as.data.frame(bwc[order(bwc$reval), ])

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