inst/tests/chkSame.R

## utility functions for checking results: comparing different structures, etc.

isClose <- function (x, y) {
  dif <- abs(x - y)
  if (0 == dif) return (TRUE)
  m <- abs(x)
  t <- abs(y)
  if (t > m)
    m <- t
  if (Inf == m)        return (FALSE)
  if (dif/m <= 1e-15)  return (TRUE)
  return (FALSE)
}  # isClose

# compare the lists f1 and f2, return TRUE if the same, FALSE o/w
## this test assumes a certain ordering of the list elements
## it is not really necessary that they be ordered in this way but it
## makes the test easier to implement
chkLists <- function(s, f1, f2) {
  if (! is.list(f1))   return (FALSE)
  if (! is.list(f2))   return (FALSE)
  n     <- length(f1)
  if (n != length(f2))     return (FALSE)
  if (n < 3)     return (FALSE)

  f1Names <- names(f1)
  f2Names <- names(f2)

  ## element 1: symbol name
  if (! is.character(f1[[1]]))   return (FALSE)
  if (! is.character(f2[[1]]))   return (FALSE)
  if ("name"       != f2Names[[1]])   return (FALSE)
  if (f1Names[[1]] != f2Names[[1]])   return (FALSE)
  if (f1[[1]] != f2[[1]])        return (FALSE)

  ## element 2: symbol type
  if (! is.character(f1[[2]]))   return (FALSE)
  if (! is.character(f2[[2]]))   return (FALSE)
  if ("type"       != f2Names[[2]])   return (FALSE)
  if (f1Names[[2]] != f2Names[[2]])   return (FALSE)
  if (f1[[2]] != f2[[2]])        return (FALSE)

  if ("set" == f2[[2]]) {
    ## element 3: set uels
    if (! is.list(f1[[3]]))   return (FALSE)
    if (! is.list(f2[[3]]))   return (FALSE)
    if ("uels"       != f2Names[[3]])   return (FALSE)
    if (f1Names[[3]] != f2Names[[3]])   return (FALSE)
    uList1 <- f1[[3]]
    uList2 <- f2[[3]]
    if (length(uList1) != length(uList2))  return (FALSE)
    ## loop through the dimensions, comparing the UELs in each
    for (d in 1:length(uList1)) {
      uels1 <- uList1[[d]]
      uels2 <- uList2[[d]]
      nk <- length(uels1)
      if (nk != length(uels2))  return (FALSE)
      for (k in 1:nk) {
        if (uels1[[k]] != uels2[[k]]) {
          return (FALSE)
        }
      }
    }
    if (n > 3) {
      ## element 4: symbol text
      if (! is.character(f1[[4]]))   return (FALSE)
      if (! is.character(f2[[4]]))   return (FALSE)
      if ("ts"         != f2Names[[4]])   return (FALSE)
      if (f1Names[[4]] != f2Names[[4]])   return (FALSE)
      if (f1[[4]] != f2[[4]])        return (FALSE)
    }
    if (n > 4) {
      return (FALSE)
    }
    return (TRUE)
  }

  print (paste("checking", s, ": test is not fully implemented"))
  return (FALSE)
  return (TRUE)
} # chkLists

mb <- function (msg) {
  return (list(same=FALSE,msg=msg))
} # mb

# compare the data frames f1 and f2, return a checkresult list when done
## this test is intended to compare the results of rgdx.XXX() calls
chkRgdxDF <- function(f1, f2, reqIdent=TRUE) {
  if (identical(f1,f2))     return (list(same=TRUE,msg=''))

  if (! is.data.frame(f1))   return (mb("not data frames"))
  if (! is.data.frame(f2))   return (mb("not data frames"))

  nc     <- ncol(f1)
  if (nc != ncol(f2))     return (mb("ncol mismatch"))
  nr     <- nrow(f1)
  if (nr != nrow(f2))     return (mb("nrow mismatch"))
  if (!identical(attr(f1,"symName"), attr(f2,"symName")))  return (mb('symName mismatch'))
  if (!identical(attr(f1,"domains"), attr(f2,"domains")))  return (mb('domains mismatch'))
  if (!identical(attr(f1,"domInfo"), attr(f2,"domInfo")))  return (mb('domInfo mismatch'))
  
  r <- list(same=FALSE,msg="decruft this")
  cNames1 <- names(f1)
  cNames2 <- names(f2)
  for (j in c(1:nc)) {
    if (cNames1[j] != cNames2[j]) {
      return (mb(paste("column", j, "names differ")))
    }
    fc1 <- f1[[j]]
    fc2 <- f2[[j]]
    if (is.factor(fc1)) {
      if (! is.factor(fc2))   return (mb(paste("column", j,"is.factor mismatch")))
      if (nlevels(fc1) != nlevels(fc2)) return (mb(paste("column", j,"nlevels mismatch")))
      if (nlevels(fc1) > 0) {
        lvl1 <- levels(fc1)
        lvl2 <- levels(fc2)
        for (k in c(1:nlevels(fc1))) {
          if (! identical(lvl1[[k]], lvl2[[k]]))  return (mb(paste("column", j,"level",k,"mismatch")))
        }
      }
      if (length(fc1) != length(fc2))   return (mb(paste("column", j,"length mismatch")))
      if (length(fc1) > 0) {
        iv1 <- as.integer(fc1)
        iv2 <- as.integer(fc2)
        for (k in c(1:length(fc1))) {
          if (iv1[[k]] != iv2[[k]]) return (mb(paste("column", j,"item",k,"mismatch")))
        }
      }
    }
    else if (is.vector(fc1)) {
      if (! is.vector(fc2))   return (mb(paste("column", j,"is.vector mismatch")))
      if (length(fc1) != length(fc2))   return (mb(paste("column", j,"length mismatch")))
      for (k in c(1:length(fc1))) {
        if (! identical(fc1[[k]], fc2[[k]])) return (mb(paste("column", j,"val",k,"mismatch")))
      }
    }
    else {
      return (mb(paste("column", j,"type unrecognized")))
    }
  }

  if (nr > 0) {
    rNames1 <- row.names(f1)
    rNames2 <- row.names(f2)
    for (i in c(1:nr)) {
      if (rNames1[i] != rNames2[i]) {
        return (mb(paste("row", i, "names differ")))
      }
    }
  }

  ## already checked if identical: they are not!
  if (reqIdent)     return(list(same=FALSE,msg='not identical'))
  return(list(same=TRUE,msg=''))
} # chkRgdxDF


# compare the data frames f1 and f2, return TRUE if the same, FALSE o/w
chkFrames <- function(s, f1, f2) {
  if (! is.data.frame(f1))   return (FALSE)
  if (! is.data.frame(f2))   return (FALSE)
  nc     <- ncol(f1)
  if (nc != ncol(f2))     return (FALSE)
  nr     <- nrow(f1)
  if (nr != nrow(f2))     return (FALSE)
  if (nr == 0)            return (TRUE)
  if (attr(f1,"symName") != attr(f2,"symName"))   return (FALSE)

  cNames1 <- names(f1)
  cNames2 <- names(f2)
  for (j in c(1:nc)) {
    if (cNames1[j] != cNames2[j]) {
      print (paste("checking", s, ": column", j, "names differ"))
      return (FALSE)
    }
    fc1 <- f1[[j]]
    fc2 <- f2[[j]]
    if (is.factor(fc1)) {
      if (! is.factor(fc2))   return (FALSE)
      if (nlevels(fc1) != nlevels(fc2))   return (FALSE)
      lvl1 <- levels(fc1)
      lvl2 <- levels(fc2)
      for (k in c(1:nlevels(fc1))) {
        if (! identical(lvl1[[k]], lvl2[[k]]))   return (FALSE)
      }
      if (length(fc1) != length(fc2))   return (FALSE)
      iv1 <- as.integer(fc1)
      iv2 <- as.integer(fc2)
      for (k in c(1:length(fc1))) {
        if (iv1[[k]] != iv2[[k]])   return (FALSE)
      }
    }
    else if (is.vector(fc1)) {
      if (! is.vector(fc2))   return (FALSE)
      if (length(fc1) != length(fc2))   return (FALSE)
      for (k in c(1:length(fc1))) {
        if (! identical(fc1[[k]], fc2[[k]]))   return (FALSE)
      }
    }
    else {
      print (paste("checking", s, ": column", j, "type unrecognized"))
      return (FALSE)
    }
  }

  rNames1 <- row.names(f1)
  rNames2 <- row.names(f2)
  for (i in c(1:nr)) {
    if (rNames1[i] != rNames2[i]) {
      print (paste("checking", s, ": row", i, "names differ"))
      return (FALSE)
    }
  }
  return (TRUE)
} # chkFrames

# compare the character vectors v1 and v2, return TRUE if the same, FALSE o/w
chkSameVec <- function(s, v1,v2) {
  if (! is.vector(v1,mode="character"))   return (FALSE)
  if (! is.vector(v2,mode="character"))   return (FALSE)
  n <- length(v1)
  if (n != length(v2))     return (FALSE)
  if (n == 0)              return (TRUE)
  for (k in c(1:n)) {
    if (! identical(v1[[k]],v2[[k]])) {
      print (paste("checking", s, ": item", k, "is wrong"))
      return (FALSE)
    }
  }
  return (TRUE)
}  # chkSameVec


# compare the lists f1 and f2, return a checkresult list when done
## this test is intended to compare the results of rgdx() calls and
## assumes a certain ordering of the list elements
## it is not really necessary that they be ordered in this way but it
## makes the test easier to implement
chkRgdxRes <- function(f1, f2, checkDimNames=TRUE, reqIdent=TRUE) {
  if (identical(f1,f2))     return (list(same=TRUE,msg=''))

  isSparse <- TRUE
  isUniverse <- FALSE
  isVar <- FALSE
  isEqu <- FALSE
  symDim <- -1

  r <- list(same=FALSE,msg="not lists")
  if (! is.list(f1))   return (r)
  if (! is.list(f2))   return (r)
  r$msg <- "bogus lengths"
  n     <- length(f1)
  if (n != length(f2))     return (r)
  if (n < 3)     return (r)

  f1Names <- names(f1)
  f2Names <- names(f2)

  r$msg <- "element 1 (name) error"
  ## element 1: symbol name
  if (! is.character(f1[[1]]))   return (r)
  if (! is.character(f2[[1]]))   return (r)
  if ("name"       != f2Names[[1]])   return (r)
  if (f1Names[[1]] != f2Names[[1]])   return (r)
  if (f1[[1]] != f2[[1]])        return (r)
  if ("*" == f2[[1]])
    isUniverse <- TRUE

  r$msg <- "element 2 (type) error"
  ## element 2: symbol type
  if (! is.character(f1[[2]]))   return (r)
  if (! is.character(f2[[2]]))   return (r)
  if ("type"       != f2Names[[2]])   return (r)
  if (f1Names[[2]] != f2Names[[2]])   return (r)
  if (f1[[2]] != f2[[2]])        return (r)
  if (f1[[2]] == 'variable')
    isVar = TRUE
  if (f1[[2]] == 'equation')
    isEqu = TRUE

  if (isUniverse) {
    ## universe set is special: no form, no vals, just uels are returned
    r$msg <- "universe set: expect NULL 'form' element"
    if (! is.null(f1$form)) return (r)
    if (! is.null(f2$form)) return (r)
  }
  else {
    r$msg <- "invalid/missing 'form' element"
    if (is.null(f1$form)) return (r)
    if (is.null(f2$form)) return (r)
    if (! is.character(f1$form))   return (r)
    if (! is.character(f2$form))   return (r)
    if (f1$form != f2$form)        return (r)
    if ('sparse' == f2$form) {
      isSparse <- TRUE
    }
    else if ('full' == f2$form) {
      isSparse <- FALSE
    }
    else {
      return (r)
    }
  }

  for (k in 3:n) {
    r$msg <- paste("element",k,"error")
    if (f1Names[[k]] != f2Names[[k]])  return (r)
    if      ("dim" == f2Names[[k]]) {
      if (! is.numeric(f1[[k]]))   return (r)
      if (! is.numeric(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])      return (r)
      symDim <- f1[[k]]
    }
    else if ("val" == f2Names[[k]]) {
      if (isUniverse) {
        r$msg <- "universe set: expect NULL 'val' element"
        if (! is.null(f1[[k]])) return (r)
        if (! is.null(f2[[k]])) return (r)
        next
      }
      if (! is.numeric(f1[[k]]))   return (r)
      if (! is.numeric(f2[[k]]))   return (r)
      if ((! isSparse) && (0 == symDim)) {
        ## full form for scalars is slightly different
        if (! identical(dimnames(f1[[k]]),dimnames(f2[[k]])))
        if (! is.vector(f1[[k]]))   return (r)
        if (! is.vector(f2[[k]]))   return (r)
        if (isVar) {
          if (5 != length(f1[[k]]))   return (r)
          if (5 != length(f2[[k]]))   return (r)
          for (kk in 1:5) {
            if (f1[[k]][k] == f2[[k]][k])  next
            if (! isClose(f1[[k]][k],f2[[k]][k])) return (r)
          }
        }
        else {
          if (1 != length(f1[[k]]))   return (r)
          if (1 != length(f2[[k]]))   return (r)
          if (f1[[k]] == f2[[k]])  next
          if (! isClose(f1[[k]],f2[[k]])) return (r)
        }
        next
      }
      if (! is.array(f1[[k]]))     return (r)
      if (! is.array(f2[[k]]))     return (r)
      dims1 <- dim(f1[[k]])
      dims2 <- dim(f2[[k]])
      nd <- length(dims2)
      if (length(dims1) != nd)     return (r)
      last <- 1
      for (d in 1:nd) {
        if (dims1[d] != dims2[d])  return (r)
        last <- last * dims1[d]
      }
      if (0 == last)               next
      for (kk in 1:last) {
        if (f1[[k]][kk] == f2[[k]][kk])  next
        if (! isClose(f1[[k]][kk],f2[[k]][kk])) return (r)
        ## if (f1[[k]][kk] != f2[[k]][kk])  return (r)
      }
      if ((! isSparse) && checkDimNames) {
        dn1 <- dimnames(f1[[k]])
        dn2 <- dimnames(f2[[k]])
        if (is.null(dn1) && is.null(dn2))   next
        if (is.null(dn1))                   return (r)
        if (is.null(dn2))                   return (r)
        if (! identical(dn1,dn2))           return (r)
        for (d in 1:nd) {
          if (is.null(dn1[[d]]) && is.null(dn2[[d]]))  next
          if (is.null(dn1[[d]]))                       return (r)
          if (is.null(dn2[[d]]))                       return (r)
          if (! chkSameVec ("", dn1[[d]], dn2[[d]]))   return (r)
        }
      }
    }
    else if ("form" == f2Names[[k]]) {
      if (isUniverse) {
        next                            # already checked
      }
      if (! is.character(f1[[k]]))   return (r)
      if (! is.character(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])        return (r)
    }
    else if ("domInfo" == f2Names[[k]]) {
      if (! is.character(f1[[k]]))   return (r)
      if (! is.character(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])        return (r)
    }
    else if ("uels" == f2Names[[k]]) {
      if (isUniverse) {
        r$msg <- "universe set: expect vector of uels"
        if (! chkSameVec ("", f1[[k]], f2[[k]])) return (r)
        next
      }
      if (! is.list(f1[[k]]))   return (r)
      if (! is.list(f2[[k]]))   return (r)
      if (! identical(names(f1[[k]]),names(f2[[k]]))) return (r)
      n1 <- length(f1[[k]])
      if (n1 != length(f2[[k]]))  return (r)
      if (0 == n1)                next
      for (i in 1:n1) {
        if (! chkSameVec ("", f1[[k]][[i]], f2[[k]][[i]])) return (r)
      }
    }
    else if ("ts" == f2Names[[k]]) {
      if (! is.character(f1[[k]]))   return (r)
      if (! is.character(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])        return (r)
    }
    else if ("te" == f2Names[[k]]) {
      if (isSparse) {
        if (! chkSameVec ("", f1[[k]], f2[[k]])) return (r)
      }
      else {
        if (! chkSameArray (f1[[k]], f2[[k]])) return (r)
      }
      dn1 <- dimnames(f1[[k]])
      dn2 <- dimnames(f2[[k]])
      if (! identical(dn1,dn2))           return (r)
    }
    else if ("domains" == f2Names[[k]]) {
      if (0 == symDim) {
        if (! is.vector(f1[[k]],mode="character"))   return (r)
        if (! is.vector(f2[[k]],mode="character"))   return (r)
        if (0 != length(f1[[k]]))                    return (r)
        if (0 != length(f2[[k]]))                    return (r)
        next
      }
      if (! chkSameVec ("", f1[[k]], f2[[k]])) return (r)
    }
    else if ("field" == f2Names[[k]]) {
      if (! is.character(f1[[k]]))   return (r)
      if (! is.character(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])        return (r)
    }
    else if ("varTypeText" == f2Names[[k]]) {
      if (! is.character(f1[[k]]))   return (r)
      if (! is.character(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])        return (r)
    }
    else if ("typeCode" == f2Names[[k]]) {
      if (! is.numeric(f1[[k]]))   return (r)
      if (! is.numeric(f2[[k]]))   return (r)
      if (f1[[k]] != f2[[k]])      return (r)
    }
    else {
      return (r)
    }
  }                                     # loop over list elements

  ## already checked if identical: they are not!
  if (reqIdent)     return(list(same=FALSE,msg='not identical'))

  r$same <- TRUE ;   r$msg <- ''
  return (r)
} # chkRgdxRes

# compare the arrays v1 and v2, return TRUE if the same, FALSE o/w
chkSameArray <- function (v1,v2) {
  if ("character" == mode(v1)) {
    if ("character" != mode(v2)) return (FALSE)
    if (! is.array(v1))   return (FALSE)
    if (! is.array(v2))   return (FALSE)
    dims1 <- dim(v1)
    dims2 <- dim(v2)
    nd <- length(dims1)
    if (nd != length(dims2))    return (FALSE)
    last <- 1
    for (d in 1:nd) {
      if (dims1[d] != dims2[d]) return (FALSE)
      last <- last * dims1[d]
    }
    for (k in 1:last) {
      if (! identical(v1[[k]], v2[[k]]))   return (FALSE)
    }
  }
  else if ("numeric" == mode(v1)) {
    if ("numeric" != mode(v2)) return (FALSE)
    if (! is.array(v1))   return (FALSE)
    if (! is.array(v2))   return (FALSE)
    dims1 <- dim(v1)
    dims2 <- dim(v2)
    nd <- length(dims1)
    if (nd != length(dims2))    return (FALSE)
    last <- 1
    for (d in 1:nd) {
      if (dims1[d] != dims2[d]) return (FALSE)
      last <- last * dims1[d]
    }
    for (k in 1:last) {
      if (! identical(v1[[k]], v2[[k]]))   return (FALSE)
    }
  }
  else {
    return (FALSE)
  }

  return (TRUE)
}  # chkSameArray
GAMS-dev/gdxrrw-miro documentation built on July 11, 2024, 4:39 p.m.