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I've been asked to make the distinct problems more clear, so here they are at the top:

  • How to compute the rolling average for a team, excluding the current week
  • How to add columns containing similar stats for the opponent team

Here's the original text:

I'm learning R to do some armchair analysis of sports. Right now, I'm stuck on a problem where I have a list of every game played in an NFL season, and I'm trying to calculate what the AvgTotalYds of offense was in the weeks leading up to this game. Eventually, I'd like to be able to do an average for the season-to-date, as well as a moving average of the past X periods.

Further complicating it is that I'd like to also get the same info for the opponent leading up to the week in question. I've searched a lot for a similar problem, but couldn't find any solutions.

Below is a sample of the data. The database I was given has some unfortunate column names. ScoreOff actually refers to the total points scored by the team in the TeamName field, whether they were offensive, defensive, or special teams plays. *Def, likewise, refer to the Opponent. Code examples are using a data frame labeled "df2."

dput(head(df2))

structure(list(Date = structure(c(14126, 14126, 14129, 14129, 
14129, 14129), class = "Date"), TeamName = structure(c(21L, 32L, 
1L, 2L, 3L, 4L), .Label = c("Arizona Cardinals", "Atlanta Falcons", 
"Baltimore Ravens", "Buffalo Bills", "Carolina Panthers", "Chicago Bears", 
"Cincinnati Bengals", "Cleveland Browns", "Dallas Cowboys", "Denver Broncos", 
"Detroit Lions", "Green Bay Packers", "Houston Texans", "Indianapolis Colts", 
"Jacksonville Jaguars", "Kansas City Chiefs", "Miami Dolphins", 
"Minnesota Vikings", "New England Patriots", "New Orleans Saints", 
"New York Giants", "New York Jets", "Oakland Raiders", "Philadelphia Eagles", 
"Pittsburgh Steelers", "San Diego Chargers", "San Francisco 49ers", 
"Seattle Seahawks", "St Louis Rams", "Tampa Bay Buccaneers", 
"Tennessee Titans", "Washington Redskins"), class = "factor"), 
    ScoreOff = c(16L, 7L, 23L, 34L, 17L, 34L), FirstDownOff = c(21L, 
    11L, 18L, 23L, 21L, 13L), ThirdDownPctOff = structure(c(34L, 
    14L, 20L, 21L, 35L, 16L), .Label = c("0%", "10%", "11%", 
    "12%", "13%", "14%", "15%", "17%", "18%", "19%", "20%", "21%", 
    "22%", "23%", "24%", "25%", "27%", "29%", "30%", "31%", "33%", 
    "35%", "36%", "37%", "38%", "40%", "41%", "42%", "43%", "44%", 
    "45%", "46%", "47%", "50%", "53%", "54%", "55%", "56%", "57%", 
    "58%", "59%", "60%", "61%", "62%", "63%", "64%", "65%", "67%", 
    "69%", "73%", "77%", "8%", "80%", "9%", "92%"), class = "factor"), 
    RushAttOff = c(32L, 24L, 39L, 42L, 46L, 29L), RushYdsOff = c(154L, 
    84L, 109L, 318L, 229L, 106L), PassAttOff = c(35L, 27L, 30L, 
    13L, 29L, 31L), PassCompOff = c(19L, 15L, 19L, 9L, 15L, 20L
    ), PassYdsOff = c(216L, 133L, 197L, 161L, 129L, 234L), PassIntOff = c(1L, 
    0L, 0L, 0L, 0L, 0L), FumblesOff = c(0L, 0L, 0L, 0L, 2L, 0L
    ), SackYdsOff = c(16L, 8L, 21L, 5L, 0L, 2L), PenYdsOff = c(70L, 
    35L, 40L, 68L, 64L, 14L), TimePossOff = structure(c(348L, 
    52L, 368L, 175L, 354L, 239L), .Label = c("14:45", "18:15", 
    "18:27", "19:31", "19:56", "20:11", "20:12", "20:26", "20:48", 
    "21:03", "21:08", "21:16", "21:26", "21:28", "21:35", "21:44", 
    "21:45", "21:52", "21:54", "22:03", "22:08", "22:12", "22:16", 
    "22:25", "22:30", "22:31", "22:33", "22:34", "22:38", "22:39", 
    "22:53", "22:55", "22:59", "23:09", "23:10", "23:12", "23:15", 
    "23:23", "23:28", "23:30", "23:33", "23:37", "23:38", "23:42", 
    "23:43", "23:45", "23:48", "23:49", "23:56", "24:06", "24:13", 
    "24:17", "24:18", "24:21", "24:33", "24:34", "24:35", "24:41", 
    "24:43", "24:49", "24:50", "24:54", "24:58", "24:59", "25:01", 
    "25:02", "25:05", "25:11", "25:14", "25:16", "25:19", "25:25", 
    "25:29", "25:31", "25:32", "25:34", "25:36", "25:37", "25:38", 
    "25:40", "25:41", "25:46", "25:47", "25:53", "25:55", "25:57", 
    "25:58", "26:00", "26:04", "26:09", "26:10", "26:11", "26:12", 
    "26:13", "26:16", "26:20", "26:27", "26:32", "26:36", "26:37", 
    "26:38", "26:39", "26:40", "26:41", "26:44", "26:46", "26:49", 
    "26:53", "26:56", "26:59", "27:01", "27:04", "27:10", "27:12", 
    "27:13", "27:15", "27:18", "27:20", "27:24", "27:25", "27:26", 
    "27:27", "27:28", "27:30", "27:32", "27:37", "27:40", "27:44", 
    "27:46", "27:47", "27:48", "27:50", "27:51", "27:52", "27:53", 
    "27:55", "27:57", "27:58", "27:59", "28:00", "28:01", "28:03", 
    "28:05", "28:06", "28:07", "28:13", "28:14", "28:16", "28:17", 
    "28:18", "28:19", "28:21", "28:22", "28:24", "28:25", "28:28", 
    "28:29", "28:32", "28:38", "28:40", "28:41", "28:45", "28:47", 
    "28:49", "28:51", "28:53", "28:55", "28:57", "28:58", "28:59", 
    "29:00", "29:02", "29:04", "29:05", "29:07", "29:08", "29:11", 
    "29:13", "29:14", "29:18", "29:19", "29:20", "29:26", "29:27", 
    "29:29", "29:31", "29:32", "29:33", "29:34", "29:36", "29:37", 
    "29:38", "29:41", "29:42", "29:43", "29:49", "29:50", "29:55", 
    "29:56", "29:59", "30:01", "30:04", "30:05", "30:10", "30:11", 
    "30:17", "30:18", "30:19", "30:22", "30:23", "30:24", "30:26", 
    "30:27", "30:28", "30:29", "30:31", "30:33", "30:34", "30:40", 
    "30:41", "30:42", "30:46", "30:47", "30:49", "30:52", "30:53", 
    "30:55", "30:58", "31:00", "31:01", "31:02", "31:03", "31:05", 
    "31:07", "31:09", "31:11", "31:13", "31:15", "31:19", "31:20", 
    "31:22", "31:28", "31:31", "31:32", "31:35", "31:36", "31:38", 
    "31:39", "31:41", "31:42", "31:43", "31:44", "31:46", "31:47", 
    "31:53", "31:54", "31:55", "31:57", "31:59", "32:00", "32:01", 
    "32:02", "32:03", "32:05", "32:07", "32:08", "32:09", "32:10", 
    "32:12", "32:13", "32:14", "32:16", "32:20", "32:23", "32:28", 
    "32:30", "32:32", "32:33", "32:34", "32:35", "32:36", "32:40", 
    "32:42", "32:45", "32:47", "32:48", "32:50", "32:56", "32:59", 
    "33:01", "33:04", "33:07", "33:11", "33:14", "33:16", "33:19", 
    "33:20", "33:21", "33:22", "33:23", "33:24", "33:28", "33:33", 
    "33:40", "33:44", "33:47", "33:48", "33:49", "33:50", "33:51", 
    "33:56", "34:00", "34:02", "34:03", "34:05", "34:07", "34:13", 
    "34:14", "34:19", "34:20", "34:22", "34:23", "34:24", "34:26", 
    "34:28", "34:29", "34:31", "34:35", "34:41", "34:44", "34:46", 
    "34:49", "34:55", "34:58", "34:59", "35:01", "35:02", "35:06", 
    "35:10", "35:11", "35:17", "35:19", "35:25", "35:26", "35:27", 
    "35:39", "35:42", "35:43", "35:47", "35:54", "36:04", "36:11", 
    "36:12", "36:15", "36:17", "36:18", "36:22", "36:23", "36:27", 
    "36:30", "36:32", "36:37", "36:45", "36:48", "36:50", "36:51", 
    "37:01", "37:05", "37:07", "37:21", "37:22", "37:26", "37:27", 
    "37:29", "37:30", "37:35", "37:42", "37:44", "37:48", "37:52", 
    "37:57", "38:08", "38:15", "38:16", "38:23", "38:25", "38:32", 
    "38:34", "38:44", "38:52", "38:57", "39:12", "39:34", "39:48", 
    "39:49", "40:04", "40:29", "41:33", "41:45", "45:15"), class = "factor"), 
    PuntAvgOff = c(36.3, 37.9, 45, 38.3, 48.2, 46.6), Opponent = structure(c(32L, 
    21L, 27L, 11L, 7L, 28L), .Label = c("Arizona Cardinals", 
    "Atlanta Falcons", "Baltimore Ravens", "Buffalo Bills", "Carolina Panthers", 
    "Chicago Bears", "Cincinnati Bengals", "Cleveland Browns", 
    "Dallas Cowboys", "Denver Broncos", "Detroit Lions", "Green Bay Packers", 
    "Houston Texans", "Indianapolis Colts", "Jacksonville Jaguars", 
    "Kansas City Chiefs", "Miami Dolphins", "Minnesota Vikings", 
    "New England Patriots", "New Orleans Saints", "New York Giants", 
    "New York Jets", "Oakland Raiders", "Philadelphia Eagles", 
    "Pittsburgh Steelers", "San Diego Chargers", "San Francisco 49ers", 
    "Seattle Seahawks", "St Louis Rams", "Tampa Bay Buccaneers", 
    "Tennessee Titans", "Washington Redskins"), class = "factor"), 
    ScoreDef = c(7L, 16L, 13L, 21L, 10L, 10L), FirstDownDef = c(11L, 
    21L, 13L, 21L, 8L, 16L), ThirdDownPctDef = structure(c(14L, 
    34L, 25L, 13L, 7L, 10L), .Label = c("0%", "10%", "11%", "12%", 
    "13%", "14%", "15%", "17%", "18%", "19%", "20%", "21%", "22%", 
    "23%", "24%", "25%", "27%", "29%", "30%", "31%", "33%", "35%", 
    "36%", "37%", "38%", "40%", "41%", "42%", "43%", "44%", "45%", 
    "46%", "47%", "50%", "53%", "54%", "55%", "56%", "57%", "58%", 
    "59%", "60%", "61%", "62%", "63%", "64%", "65%", "67%", "69%", 
    "73%", "77%", "8%", "80%", "9%", "92%"), class = "factor"), 
    RushAttDef = c(24L, 32L, 20L, 21L, 23L, 21L), RushYdsDef = c(84L, 
    154L, 108L, 62L, 65L, 85L), PassAttDef = c(27L, 35L, 20L, 
    33L, 25L, 41L), PassCompDef = c(15L, 19L, 14L, 24L, 10L, 
    17L), PassYdsDef = c(133L, 216L, 195L, 262L, 99L, 190L), 
    PassIntDef = c(0L, 1L, 1L, 1L, 1L, 1L), FumblesDef = c(0L, 
    0L, 4L, 0L, 1L, 1L), SackYdsDef = c(8L, 16L, 12L, 16L, 10L, 
    23L), PenYdsDef = c(35L, 70L, 20L, 30L, 40L, 30L), TimePossDef = structure(c(52L, 
    348L, 32L, 225L, 46L, 161L), .Label = c("14:45", "18:15", 
    "18:27", "19:31", "19:56", "20:11", "20:12", "20:26", "20:48", 
    "21:03", "21:08", "21:16", "21:26", "21:28", "21:35", "21:44", 
    "21:45", "21:52", "21:54", "22:03", "22:08", "22:12", "22:16", 
    "22:25", "22:30", "22:31", "22:33", "22:34", "22:38", "22:39", 
    "22:53", "22:55", "22:59", "23:09", "23:10", "23:12", "23:15", 
    "23:23", "23:28", "23:30", "23:33", "23:37", "23:38", "23:42", 
    "23:43", "23:45", "23:48", "23:49", "23:56", "24:06", "24:13", 
    "24:17", "24:18", "24:21", "24:33", "24:34", "24:35", "24:41", 
    "24:43", "24:49", "24:50", "24:54", "24:58", "24:59", "25:01", 
    "25:02", "25:05", "25:11", "25:14", "25:16", "25:19", "25:25", 
    "25:29", "25:31", "25:32", "25:34", "25:36", "25:37", "25:38", 
    "25:40", "25:41", "25:46", "25:47", "25:53", "25:55", "25:57", 
    "25:58", "26:00", "26:04", "26:09", "26:10", "26:11", "26:12", 
    "26:13", "26:16", "26:20", "26:27", "26:32", "26:36", "26:37", 
    "26:38", "26:39", "26:40", "26:41", "26:44", "26:46", "26:49", 
    "26:53", "26:56", "26:59", "27:01", "27:04", "27:10", "27:12", 
    "27:13", "27:15", "27:18", "27:20", "27:24", "27:25", "27:26", 
    "27:27", "27:28", "27:30", "27:32", "27:37", "27:40", "27:44", 
    "27:46", "27:47", "27:48", "27:50", "27:51", "27:52", "27:53", 
    "27:55", "27:57", "27:58", "27:59", "28:00", "28:01", "28:03", 
    "28:05", "28:06", "28:07", "28:13", "28:14", "28:16", "28:17", 
    "28:18", "28:19", "28:21", "28:22", "28:24", "28:25", "28:28", 
    "28:29", "28:32", "28:38", "28:40", "28:41", "28:45", "28:47", 
    "28:49", "28:51", "28:53", "28:55", "28:57", "28:58", "28:59", 
    "29:00", "29:02", "29:05", "29:07", "29:08", "29:11", "29:13", 
    "29:14", "29:18", "29:19", "29:20", "29:26", "29:27", "29:29", 
    "29:31", "29:32", "29:33", "29:34", "29:36", "29:37", "29:38", 
    "29:41", "29:42", "29:43", "29:49", "29:50", "29:55", "29:56", 
    "29:59", "30:01", "30:04", "30:05", "30:10", "30:11", "30:17", 
    "30:18", "30:19", "30:22", "30:23", "30:24", "30:26", "30:27", 
    "30:28", "30:29", "30:31", "30:33", "30:34", "30:40", "30:41", 
    "30:42", "30:46", "30:47", "30:49", "30:52", "30:53", "30:55", 
    "30:56", "30:58", "31:00", "31:01", "31:02", "31:03", "31:05", 
    "31:07", "31:09", "31:11", "31:13", "31:15", "31:19", "31:20", 
    "31:22", "31:28", "31:31", "31:32", "31:35", "31:36", "31:38", 
    "31:39", "31:41", "31:42", "31:43", "31:44", "31:46", "31:47", 
    "31:53", "31:54", "31:55", "31:57", "31:59", "32:00", "32:01", 
    "32:02", "32:03", "32:05", "32:07", "32:08", "32:09", "32:10", 
    "32:12", "32:13", "32:14", "32:16", "32:20", "32:23", "32:28", 
    "32:30", "32:32", "32:33", "32:34", "32:35", "32:36", "32:40", 
    "32:42", "32:45", "32:47", "32:48", "32:50", "32:56", "32:59", 
    "33:01", "33:04", "33:07", "33:11", "33:14", "33:16", "33:19", 
    "33:20", "33:21", "33:22", "33:23", "33:24", "33:28", "33:33", 
    "33:40", "33:44", "33:47", "33:48", "33:49", "33:50", "33:51", 
    "33:56", "34:00", "34:02", "34:03", "34:05", "34:07", "34:13", 
    "34:14", "34:19", "34:20", "34:22", "34:23", "34:24", "34:26", 
    "34:28", "34:29", "34:31", "34:35", "34:41", "34:44", "34:46", 
    "34:49", "34:55", "34:58", "34:59", "35:01", "35:02", "35:06", 
    "35:10", "35:11", "35:17", "35:19", "35:25", "35:26", "35:27", 
    "35:39", "35:42", "35:43", "35:47", "35:54", "36:04", "36:11", 
    "36:12", "36:15", "36:17", "36:18", "36:22", "36:23", "36:27", 
    "36:30", "36:32", "36:37", "36:45", "36:48", "36:50", "36:51", 
    "37:01", "37:05", "37:07", "37:21", "37:22", "37:26", "37:27", 
    "37:29", "37:30", "37:35", "37:42", "37:44", "37:48", "37:52", 
    "37:57", "38:08", "38:15", "38:16", "38:23", "38:25", "38:32", 
    "38:34", "38:44", "38:52", "38:57", "39:12", "39:34", "39:48", 
    "39:49", "40:04", "40:29", "41:33", "41:45", "45:15"), class = "factor"), 
    Site = structure(c(1L, 3L, 3L, 1L, 1L, 1L), .Label = c("H", 
    "N", "V"), class = "factor"), Line = c(4.5, -4.5, 2.5, -3, 
    -2, 1), Totalline = c(41.5, 41.5, 42, 41, 37.5, 38.5), TotalYdsOff = c(370L, 
    217L, 306L, 479L, 358L, 340L), TotalYdsDef = c(217L, 370L, 
    303L, 324L, 164L, 275L), ActualLine = c(-9L, 9L, -10L, -13L, 
    -7L, -24L)), .Names = c("Date", "TeamName", "ScoreOff", "FirstDownOff", 
"ThirdDownPctOff", "RushAttOff", "RushYdsOff", "PassAttOff", 
"PassCompOff", "PassYdsOff", "PassIntOff", "FumblesOff", "SackYdsOff", 
"PenYdsOff", "TimePossOff", "PuntAvgOff", "Opponent", "ScoreDef", 
"FirstDownDef", "ThirdDownPctDef", "RushAttDef", "RushYdsDef", 
"PassAttDef", "PassCompDef", "PassYdsDef", "PassIntDef", "FumblesDef", 
"SackYdsDef", "PenYdsDef", "TimePossDef", "Site", "Line", "Totalline", 
"TotalYdsOff", "TotalYdsDef", "ActualLine"), row.names = c(NA, 
6L), class = "data.frame")

I added the TotalYds[Off|Def] columns as that was trivial to do. The closest thing to the properly calculating a moving average was accomplished with the zoo and plyr libraries, and the following command:

ddply(df2, .(TeamName), summarise, rollmean(TotalYdsOff, k=4, fill=0, align="right"))

Which almost does what I want, except that it will use the information for the current week in the average.

As far as getting the matching information for the opponent, I was thinking there'd be a way to pull out the same data from the row where "TeamName" and "Date" both match to the current row's "Opponent" and "Date." This is because the database has two entries on a given game, one for the home team and one for the away (and *Off and *Def are swapped). Look at lines 1 and 2 in the example data, specifically Date, TeamName, and Opponent and you'll understand what I'm trying to say.

Any guidance here? I imagine this is relatively trivial for someone with more than a few days tinkering in R, who would know of some function or library that does this. I, however, am only a few days in, and thus am having some trouble.

share|improve this question
1  
Type dput(head(df)) & paste the result into your question - then SO users can copy your data frame into R more easily to work with your data. –  Drew Steen Oct 17 '12 at 16:47
    
Sorry about that. Here you go! –  user1422599 Oct 17 '12 at 16:50
    
I was thinking that a couple nested for loops might just be the way to go. I'm hoping for a more elegant solution, though. –  user1422599 Oct 17 '12 at 16:54
1  
As I read it, you've got two different questions here: 1: how to compute a rolling average, excluding the latest week, and 2: how to add columns containing stats for the opponent team. Is that right? Either way, please edit to make your specific questions more explicit. –  Drew Steen Oct 17 '12 at 17:03
    
Thanks, Drew. I updated it as requested. Sorry about the lack of clarity. –  user1422599 Oct 17 '12 at 19:38

2 Answers 2

A simple way to address question 1 would be to use the ddply call you described, but to pass it a data frame with all of this week's games removed:

require(plyr)
dfRedacted <- ddply(df2, .(TeamName), function(x) subset(x, Date!=max(Date)))
meanStats <- ddply(dfRedacted, .(TeamName), summarise, rollmean(TotalYdsOff, k=4, fill=0, align="right"))
share|improve this answer
    
Interesting. I'll give it a shot when I get done with work. I had resolved to a couple nested for loops to do the work. I'll probably end up trying both (as I'm trying to learn R, more practice with different solutions is "better") and report back on each. –  user1422599 Oct 17 '12 at 21:25
1  
If your goal is to try to learn R, I definitely recommend looking for a vectorized solution, even though you could surely find a solution that works with loops. I was trying to find a plyr solution to the second problem, but I'm not sure this is possible, as you need to look through your entire data frame to find the opposition stats for each combination of "Date" and "TeamName". –  Drew Steen Oct 17 '12 at 21:26
    
Good to know. I'll make sure to look for more solutions to the problem. Without trying it, my current guess is the plyr solution you've posted will pose two problems for me. First, I believe it'll end up reordering the data by Team, thus making a merge into the normal dataframe more difficult. Second, I think it might end up with one fewer entry for each team (15 averages including the first few "0" weeks, instead of one for each of the 16 weeks). –  user1422599 Oct 17 '12 at 21:47
    
Also, I'll upvote your answers when I can A) verify and B) get enough reputation points (I'm at 11, but need 15). –  user1422599 Oct 17 '12 at 21:48
    
Couple things. First, the concerns I had about ddply method turned out to be right. The ordering thing is easy enough to work around, but there still remains the problem of one fewer calculation than rows for a team. I did end up doing it for the average throughout the year successfully, so the next step is to get the moving average to work correctly and post those answers. I'm pretty sure I know how to solve getting the opponent's data. When I get solutions for all, I'll post here. –  user1422599 Oct 17 '12 at 23:37
up vote 0 down vote accepted

For now, I ended up creating a function to calculate the season average up to (but not including) a given game and putting the results in a separate vector, then just using cbind() to add it to the data frame:

foo <- vector()
for(each in levels(df$TeamName)) {
  foo <- c(foo, calc_avg_yds(df, each))
}

df <- cbind(df[order(df$TeamName), ], AvgTotalYdsOff = foo)

As you can see, i reordered the df by teamname (secondary would be date, which it was already ordered by) to make sure they match up.

To get the info from the corresponding row (the one for the other team in the game), I did a loop and put everything in a vector, then another cbind():

for(i in nrow(df)) {
   foo <- c(foo, subset(df, TeamName==df[i,]$Opponent & Date==df[i,]$Date)$AvgTotalYdsOff)
}
df <- cbind(df, AvgTotalYdsDef = foo)

In the end, I went with the simple, cruder route as I didn't know of better alternative. Hope this helps someone in the future with a similar problem.

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