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Having similar problem, I am looking for a more generalized solution than the one provided for this question: How do I substitute symbols in a language object?

I have an unevaluated expression foo <- quote(bar + baz), which is a variable inside other expression: qux <- quote(bla + foo).

We can check that:

exists("foo", envir=.GlobalEnv) & class(foo)=="call"
[1] TRUE
exists("qux", envir=.GlobalEnv) & class(qux)=="call"
[1] TRUE

Now I would like to write a generalized function that decomposes (parses?) qux into the component expressions and replaces the ones that exist in the .GlobalEnv and that are of class call with their values:

replaceFUN <- function(x) {
  # do something
}

Running replaceFUN(qux) should return:

bla + (bar + baz)  

Background on the actual problem:

I am building a quant trading rules backtesting engine. My aim is to delay evaluation of the quote()d expressions, such as rules and indicator calculations later after their definition.

require(data.table)
require(TTR) # for the `SMA` function

DT <- data.table(Instrument=rep("SPX",3),Date=1:3, Close=c(1050, 1052, 1051))

# define parameters
nSMA <-2
t <- 2

# define indicators
time.filter <- quote( Date==t )
moving.average <- quote( SMA(Close, nSMA) )    
buy <- quote( Close > moving.average & time.filter )


AddColumn <- function(x, colname) {
  DT[,eval(substitute(colname)):=eval(x, envir=.SD)]
}

AddColumn(time.filter, "filter")

    Instrument Date Close filter
 1:        SPX    1  1050  FALSE
 2:        SPX    2  1052   TRUE
 3:        SPX    3  1051  FALSE

AddColumn(moving.average, "MA")

   Instrument Date Close filter     MA
1:        SPX    1  1050  FALSE     NA
2:        SPX    2  1052   TRUE 1051.0
3:        SPX    3  1051  FALSE 1051.5

AddColumn(buy, "Buy")

Error in Close > moving.average & time.filter : 
operations are possible only for numeric, logical or complex types

This obviously raises an error because AddColumn function lacks the mechanism to parse the nested moving.average and time.filter variables (plus and any other that user defines and nests). The nesting of rules inside buy is done for readability and is indeed a syntactic sugar.

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marked as duplicate by Joshua Ulrich, Ricardo Saporta, Thomas, BondedDust, Ilya Oct 13 '13 at 18:30

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

1  
In your case: do.call(substitute, list(qux, list(foo=foo))) –  Joshua Ulrich Oct 11 '13 at 23:05
    
Thanks Joshua, that certainly helps to solve the substitution part of the problem. Another part of the problem is how to decompose qux expression into components to search for in the .GlobalEnv and for the matches to populate the list in do.call(substitute, list(qux, list(foo=foo))). First thing that came to mind was strsplit(), but I don't know the split argument in advance. Maybe I should edit my question to break down the problem into parts. –  Daniel Krizian Oct 11 '13 at 23:27
    
Instead of breaking the question into parts, perhaps you should give some background on the actual problem you're trying to solve. There's probably an easier way than searching for and substituting calls. –  Joshua Ulrich Oct 11 '13 at 23:35
    
Look at how quantstrat handles delayed evaluation. Or, better yet, contribute to quantstrat rather than re-creating something similar. –  Joshua Ulrich Oct 12 '13 at 18:41
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2 Answers

up vote 3 down vote accepted

I was solving a very similar problem to this a little while ago. Check out the source code of [.data.table and look at the deconstruct_and_eval and construct functions there. It should give you enough info to go on.

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spot on, I have amended the deconstruct_and_eval function that you pointed out and it works! See my detailed answer. It needed additional eval statement for the objects that exist in the environment and that are not functions. As your answer provided a crucial lead, I thankfully set this as accepted answer and provide tedious details in separate. –  Daniel Krizian Oct 13 '13 at 15:35
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Customizing this function from [.data.table source code yields the desired general solution:

deconstruct_and_eval = function(expr, envir = parent.frame(), enclos = parent.frame()) {

  if (!mode(expr) %in% c("call", "expression")) 
    return(expr)

  if (length(expr) == 1) {
    if (is.call(expr[[1]])) return (deconstruct_and_eval(expr[[1]]))
    else return(expr)
  }

  if (expr[[1]] == quote(eval) && length(expr) < 3) {
    return(deconstruct_and_eval(eval(expr[[2]], envir, enclos), envir, enclos))
  }

  lapply(expr, function(m) {
    if (is.call(m)) {
      if (m[[1]] == quote(eval)) eval(m[[2]], envir, enclos)
      else deconstruct_and_eval(m, envir, enclos)
    } else {
# begin edit 
      if(exists(as.character(m),envir=.GlobalEnv)) {
        if(!is.function(eval(m)))
           eval(m)
           else
             m
      } else
# end edit
        m
    }
  })
}

Running the function with the original question variables yields:

deconstruct_and_eval(qux)
[[1]]
`+`

[[2]]
bla

[[3]]
bar + baz

This deconstructed list can then be rebuilt with the construct function from source code:

construct(deconstruct_and_eval(qux))
bla + (bar + baz)

Application on the actual problem:

deconstruct_and_eval(buy)
[[1]]
`&`

[[2]]
[[2]][[1]]
`>`

[[2]][[2]]
Close

[[2]][[3]]
SMA(Close, nSMA)


[[3]]
Date == t

construct(deconstruct_and_eval(buy))
Close > SMA(Close, nSMA) & Date == t
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