Week 7: Code along 6
CHAPTER 4 Standard Deviation
Ryan Berg
2024-10-09
# Load packages
# Core
library(tidyverse)
library(tidyquant)Goal
Collect individual returns into a portfolio by assigning a weight to each stock
five stocks: “SPY”, “EFA”, “IJS”, “EEM”, “AGG”
from 2012-12-31 to 2017-12-31
1 Import stock prices
symbols <- c("SPY", "EFA", "IJS", "EEM", "AGG")
prices <- tq_get(x = symbols,
get = "stock.prices",
from = "2012-12-31",
to = "2017-12-31")2 Convert prices to returns
asset_returns_tbl <- prices %>%
group_by(symbol) %>%
tq_transmute(select = adjusted,
mutate_fun = periodReturn,
period = "monthly",
type = "log") %>%
slice(-1) %>%
ungroup() %>%
set_names(c("asset", "date", "returns"))3 Assign a weight to each asset
# symbols
symbols <- asset_returns_tbl %>% distinct(asset) %>% pull()
symbols## [1] "AGG" "EEM" "EFA" "IJS" "SPY"# weights
weights <- c(0.25, 0.25, 0.2, 0.2, 0.1)
weights## [1] 0.25 0.25 0.20 0.20 0.10w_tbl <- tibble(symbols, weights)
w_tbl## # A tibble: 5 × 2
## symbols weights
## <chr> <dbl>
## 1 AGG 0.25
## 2 EEM 0.25
## 3 EFA 0.2
## 4 IJS 0.2
## 5 SPY 0.14 Build a portfolio
# ?tq_portfolio
portfolio_returns_tbl <- asset_returns_tbl %>%
tq_portfolio(assets_col = asset,
returns_col = returns,
weights = w_tbl,
rebalance_on = "months",
col_rename = "returns")
portfolio_returns_tbl## # A tibble: 60 × 2
## date returns
## <date> <dbl>
## 1 2013-01-31 0.0204
## 2 2013-02-28 -0.00239
## 3 2013-03-28 0.0121
## 4 2013-04-30 0.0174
## 5 2013-05-31 -0.0128
## 6 2013-06-28 -0.0247
## 7 2013-07-31 0.0321
## 8 2013-08-30 -0.0224
## 9 2013-09-30 0.0511
## 10 2013-10-31 0.0301
## # ℹ 50 more rows5 Calculate Standard Deviation
portfolio_skew_tidyquant_builtin_percent <- portfolio_returns_tbl %>%
tq_performance(Ra = returns,
performance_fun = table.Stats) %>%
select(Skewness)
portfolio_skew_tidyquant_builtin_percent## # A tibble: 1 × 1
## Skewness
## <dbl>
## 1 -0.1686 Plot
Histogram of Expected Returns and Risk
# Calculate sd of portfolio returns
sd_portfolio <- sd(portfolio_returns_tbl$returns)
mean_portfolio <- mean(portfolio_returns_tbl$returns)
portfolio_returns_tbl%>%
# Add a New Variable
mutate(extreme_neg = ifelse(returns < mean_portfolio - 2 * sd_portfolio,
"ext_neg",
"not_ext_neg")) %>%
ggplot(aes(x = returns, fill = extreme_neg)) +
geom_histogram(binwidth = 0.003) +
scale_x_continuous(breaks = seq(-0.06,0.06,0.02)) +
labs(x = "monthly returns")
Scatterplot of skewness comparison
# Data transformation: calculate skewness
asset_skewness_tbl <- asset_returns_tbl %>%
group_by(asset) %>%
summarise(skew = skewness(returns)) %>%
ungroup() %>%
# Add portfolio skewness
add_row(tibble(asset = "Portfolio",
skew = skewness(portfolio_returns_tbl$returns)))
asset_skewness_tbl## # A tibble: 6 × 2
## asset skew
## <chr> <dbl>
## 1 AGG -0.599
## 2 EEM -0.0512
## 3 EFA -0.142
## 4 IJS 0.216
## 5 SPY -0.264
## 6 Portfolio -0.168# Plot skewness
asset_skewness_tbl %>%
ggplot(aes(x = asset, y = skew, color = asset)) +
geom_point() +
ggrepel::geom_text_repel(aes(label = asset), data =
asset_skewness_tbl %>%
filter(asset == "Portfolio")) +
labs(y = "skewness")
Rolling Skewness
# Transform data: calculate rolling skewness
rolling_skew_tbl <- portfolio_returns_tbl %>%
tq_mutate(select = returns,
mutate_fun = rollapply,
width = 24,
FUN = skewness,
col_rename = "Skew") %>%
select(- returns) %>%
na.omit()
# Plot
rolling_skew_tbl%>%
ggplot(aes(x = date, y = Skew)) +
geom_line(color = "darkorange") +
geom_hline(yintercept = 0, linetype = "dotted", size = 2) +
# Formatting
scale_y_continuous(limits = c(-1,1), breaks = seq(-1,1,0.2)) +
theme(plot.title = element_text(hjust = 0.5)) +
# Labeling
labs(y = "Skewness",
x = NULL,
title = "Rolling 24-Month Skewness") +
annotate(geom = "text",
x = as.Date("2016-07-01"), y = 0.8,
color = "red", size = 3,
label = str_glue("The 24 month rollling skewness is positive for about half of the lifetime, even though the overall skewness is negative"))