An interface to structure the information provided by the Brazilian Central Bank. This package interfaces the Brazilian Central Bank web services to provide data already formatted into R’s data structures.
From CRAN:
From github using remotes:
Load the package:
get_series
function Download the series by calling rbcb::get_series
and pass the time series code is as the first argument. For example, let’s download the USDBRL time series which code is 1
.
rbcb::get_series(c(USDBRL = 1))
#> # A tibble: 9,434 x 2
#> date USDBRL
#> <date> <dbl>
#> 1 1984-11-28 2828
#> 2 1984-11-29 2828
#> 3 1984-11-30 2881
#> 4 1984-12-03 2881
#> 5 1984-12-04 2881
#> 6 1984-12-05 2923
#> 7 1984-12-06 2923
#> 8 1984-12-07 2923
#> 9 1984-12-10 2965
#> 10 1984-12-11 2965
#> # ... with 9,424 more rows
Note that this series starts at 1984 and has approximately 8000 rows. Also note that you can name the downloaded series by passing a named vector
in the code
argument. To download recent values you should use the argument last = N
, see below.
rbcb::get_series(c(USDBRL = 1), last = 10)
#> # A tibble: 10 x 2
#> date USDBRL
#> <date> <dbl>
#> 1 2022-07-12 5.41
#> 2 2022-07-13 5.40
#> 3 2022-07-14 5.46
#> 4 2022-07-15 5.40
#> 5 2022-07-18 5.37
#> 6 2022-07-19 5.39
#> 7 2022-07-20 5.43
#> 8 2022-07-21 5.48
#> 9 2022-07-22 5.45
#> 10 2022-07-25 5.41
The series can be downloaded in many different types: tibble
, xts
, ts
or data.frame
, but the default is tibble
. See the next example where the Brazilian Broad Consumer Price Index (IPCA) is downloaded as xts
object.
rbcb::get_series(c(IPCA = 433), last = 12, as = "xts")
#> IPCA
#> 2021-07-01 0.96
#> 2021-08-01 0.87
#> 2021-09-01 1.16
#> 2021-10-01 1.25
#> 2021-11-01 0.95
#> 2021-12-01 0.73
#> 2022-01-01 0.54
#> 2022-02-01 1.01
#> 2022-03-01 1.62
#> 2022-04-01 1.06
#> 2022-05-01 0.47
#> 2022-06-01 0.67
or as a ts
object.
rbcb::get_series(c(IPCA = 433), last = 12, as = "ts")
#> Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
#> 2021 0.96 0.87 1.16 1.25 0.95 0.73
#> 2022 0.54 1.01 1.62 1.06 0.47 0.67
Multiple series can be downloaded at once by passing a named vector with the series codes. The return is a named list with the downloaded series.
rbcb::get_series(c(IPCA = 433, IGPM = 189), last = 12, as = "ts")
#> $IPCA
#> Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
#> 2021 0.96 0.87 1.16 1.25 0.95 0.73
#> 2022 0.54 1.01 1.62 1.06 0.47 0.67
#>
#> $IGPM
#> Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
#> 2021 0.78 0.66 -0.64 0.64 0.02 0.87
#> 2022 1.82 1.83 1.74 1.41 0.52 0.59
The function get_market_expectations
returns market expectations discussed in the Focus Report that summarizes the statistics calculated from expectations collected from market practitioners.
The first argument type
accepts the following values:
annual
: annual expectationsquarterly
: quarterly expectationsmonthly
: monthly expectationstop5s-monthly
: monthly expectations for top 5 indicatorstop5s-annual
: annual expectations for top 5 indicatorsinflation-12-months
: inflation expectations for the next 12 monthsinstitutions
: market expectations informed by financial institutionsThe example below shows how to download IPCA’s monthly expectations.
rbcb::get_market_expectations("monthly", "IPCA", end_date = "2018-01-31", `$top` = 5)
#> # A tibble: 5 x 10
#> Indicador Data DataReferencia Media Mediana DesvioPadrao Minimo Maximo numeroRespondentes baseCalculo
#> <chr> <date> <chr> <dbl> <dbl> <dbl> <dbl> <dbl> <int> <int>
#> 1 IPCA 2018-01-31 06/2019 0.21 0.2 0.07 0.13 0.36 14 1
#> 2 IPCA 2018-01-31 06/2019 0.2 0.2 0.1 -0.3 0.36 43 0
#> 3 IPCA 2018-01-31 05/2019 0.31 0.29 0.06 0.22 0.43 19 1
#> 4 IPCA 2018-01-31 05/2019 0.31 0.3 0.06 0.15 0.45 55 0
#> 5 IPCA 2018-01-31 04/2019 0.38 0.39 0.1 0.16 0.61 20 1
Use currency functions to download currency rates from the BCB OLINDA API.
olinda_list_currencies()
#> symbol name currency_type
#> 1 AUD Dólar australiano B
#> 2 CAD Dólar canadense A
#> 3 CHF Franco suíço A
#> 4 DKK Coroa dinamarquesa A
#> 5 EUR Euro B
#> 6 GBP Libra Esterlina B
#> 7 JPY Iene A
#> 8 NOK Coroa norueguesa A
#> 9 SEK Coroa sueca A
#> 10 USD Dólar dos Estados Unidos A
Use olinda_get_currency
function to download data from specific currency by the currency symbol.
olinda_get_currency("USD", "2017-03-01", "2017-03-03")
#> # A tibble: 13 x 3
#> datetime bid ask
#> <dttm> <dbl> <dbl>
#> 1 2017-03-01 14:37:41 3.10 3.10
#> 2 2017-03-01 15:37:01 3.10 3.10
#> 3 2017-03-01 15:37:01 3.10 3.10
#> 4 2017-03-02 10:04:33 3.11 3.11
#> 5 2017-03-02 11:07:36 3.10 3.10
#> 6 2017-03-02 12:10:41 3.12 3.12
#> 7 2017-03-02 13:06:27 3.12 3.12
#> 8 2017-03-02 13:06:27 3.11 3.11
#> 9 2017-03-03 10:10:38 3.13 3.13
#> 10 2017-03-03 11:10:48 3.13 3.13
#> 11 2017-03-03 12:07:35 3.14 3.14
#> 12 2017-03-03 13:07:10 3.14 3.14
#> 13 2017-03-03 13:07:10 3.14 3.14
The rates come quoted in BRL, so 3.10 is worth 1 USD in BRL.
Parity values
Type A currencies have parity values quoted in USD (1 CURRENCY in USD).
olinda_get_currency("CAD", "2017-03-01", "2017-03-01")
#> # A tibble: 3 x 3
#> datetime bid ask
#> <dttm> <dbl> <dbl>
#> 1 2017-03-01 14:37:41 2.32 2.32
#> 2 2017-03-01 15:37:01 2.32 2.32
#> 3 2017-03-01 15:37:01 2.32 2.32
olinda_get_currency("CAD", "2017-03-01", "2017-03-01", parity = TRUE)
#> # A tibble: 3 x 3
#> datetime bid ask
#> <dttm> <dbl> <dbl>
#> 1 2017-03-01 14:37:41 1.33 1.33
#> 2 2017-03-01 15:37:01 1.33 1.33
#> 3 2017-03-01 15:37:01 1.33 1.33
Type B currencies have parity values as 1 USD in CURRENCY, see AUD, for example.
olinda_get_currency("AUD", "2017-03-01", "2017-03-01")
#> # A tibble: 3 x 3
#> datetime bid ask
#> <dttm> <dbl> <dbl>
#> 1 2017-03-01 14:37:41 2.38 2.38
#> 2 2017-03-01 15:37:01 2.38 2.38
#> 3 2017-03-01 15:37:01 2.38 2.38
olinda_get_currency("AUD", "2017-03-01", "2017-03-01", parity = TRUE)
#> # A tibble: 3 x 3
#> datetime bid ask
#> <dttm> <dbl> <dbl>
#> 1 2017-03-01 14:37:41 0.768 0.768
#> 2 2017-03-01 15:37:01 0.767 0.768
#> 3 2017-03-01 15:37:01 0.767 0.768
Use currency functions to download currency rates from the BCB web site.
rbcb::get_currency("USD", "2017-03-01", "2017-03-10")
#> # A tibble: 8 x 3
#> date bid ask
#> <date> <dbl> <dbl>
#> 1 2017-03-01 3.10 3.10
#> 2 2017-03-02 3.11 3.11
#> 3 2017-03-03 3.14 3.14
#> 4 2017-03-06 3.11 3.11
#> 5 2017-03-07 3.12 3.12
#> 6 2017-03-08 3.15 3.15
#> 7 2017-03-09 3.17 3.17
#> 8 2017-03-10 3.16 3.16
The rates come quoted in BRL, so 3.0970 is worth 1 USD in BRL.
All currency time series have an attribute called symbol
that stores its own currency name.
Trying another currency.
get_currency("JPY", "2017-03-01", "2017-03-10") |> Ask()
#> # A tibble: 8 x 2
#> date JPY
#> <date> <dbl>
#> 1 2017-03-01 0.0273
#> 2 2017-03-02 0.0272
#> 3 2017-03-03 0.0274
#> 4 2017-03-06 0.0274
#> 5 2017-03-07 0.0274
#> 6 2017-03-08 0.0274
#> 7 2017-03-09 0.0276
#> 8 2017-03-10 0.0275
To see the avaliable currencies call list_currencies
.
rbcb::list_currencies()
#> # A tibble: 218 x 5
#> name code symbol country_name country_code
#> <chr> <dbl> <chr> <chr> <dbl>
#> 1 AFEGANE AFEGANIST 5 AFN AFEGANISTAO 132
#> 2 RANDE/AFRICA SUL 785 ZAR AFRICA DO SUL 7560
#> 3 LEK ALBANIA REP 490 ALL ALBANIA, REPUBLICA DA 175
#> 4 EURO 978 EUR ALEMANHA 230
#> 5 KWANZA/ANGOLA 635 AOA ANGOLA 400
#> 6 DOLAR CARIBE ORIENTAL 215 XCD ANGUILLA 418
#> 7 DOLAR CARIBE ORIENTAL 215 XCD ANTIGUA E BARBUDA 434
#> 8 RIAL/ARAB SAUDITA 820 SAR ARABIA SAUDITA 531
#> 9 DINAR ARGELINO 95 DZD ARGELIA 590
#> 10 PESO ARGENTINO 706 ARS ARGENTINA 639
#> # ... with 208 more rows
There are 216 currencies available.
The API provides a matrix with the relations between exchange rates, this is the matrix of cross currency rates. This is a square matrix with the all exchange rates between all currencies.
# Since there are many currencies it is interesting to subset the matrix.
cr <- c("USD", "BRL", "EUR", "CAD")
x[cr, cr]
#> USD BRL EUR CAD
#> USD 1.0000000 3.1623 0.9380896 1.3465764
#> BRL 0.3162255 1.0000 0.2966479 0.4258218
#> EUR 1.0659963 3.3710 1.0000000 1.4354454
#> CAD 0.7426240 2.3484 0.6966479 1.0000000
The rates are quoted by its columns labels, so the numbers in the BRL column are worth one currency unit in BRL.