context("Testing GRD()") ################################################# ## ## ## (1) how to use GRD by examples ## ## ## ################################################# test_that("This is the minimum specification", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD() head(dta) tail(dta) expect_output( str(hist(dta$DV)), "List of 6" ) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Renaming the dependant variable and setting the group size", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( RenameDV = "score", SubjectsPerGroup = 200 ) expect_output( str(hist(dta$score )), "List of 6" ) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Selecting a between-group experimental design...", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') expect_output( str(dta <- GRD( BSFactors = '3',SubjectsPerGroup = 20)), "data.frame") expect_output( str( GRD( BSFactors = "3 : 2"),SubjectsPerGroup = 20), "data.frame") expect_output( str( GRD( BSFactors = "(yes,no) : (CBT, Control, Exercice)"),SubjectsPerGroup = 20), "data.frame") expect_output( str( GRD( BSFactors = "Stress(3)"),SubjectsPerGroup = 20), "data.frame") expect_output( str( GRD( WSFactors = "Moment (2)"),SubjectsPerGroup = 20), "data.frame") expect_output( str( GRD( BSFactors = "Group(3)", WSFactors = "2 : 3"),SubjectsPerGroup = 20), "data.frame") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Obtaining feedback information (not required) and a summary", { old <- options() on.exit(options(old)) # turns on all feedback information options("superb.feedback" = 'all') expect_output( str( GRD( BSFactors = "Group(3)"),SubjectsPerGroup = 20), "data.frame") # turns only summary information on the design (recommended) options("superb.feedback" = 'summary') expect_output( str( GRD( BSFactors = "Group(3)"),SubjectsPerGroup = 20), "data.frame") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Defining population characteristics (ex. 1/2)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( RenameDV = "IQ", SubjectsPerGroup = 20, Population=list( mean=100, # will set GM to 100 stddev=15 # will set STDDEV to 15 ) ) expect_output( str(hist(dta$IQ)), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Defining population characteristics (ex. 2/2)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') suppressWarnings(library(lattice)) dta <- GRD(BSFactors="difficulty(2)", SubjectsPerGroup = 200, Population=list(mean=100,stddev=15) ) expect_output( str(histogram(~ DV | difficulty, data = dta)), "List of 45") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Adding effects (ex. 1/5)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') suppressWarnings(library(lattice)) dta <- GRD(BSFactors="difficulty(2)", SubjectsPerGroup = 200, Population=list(mean=100,stddev=15), Effects = list("difficulty" = extent(50) ) ) expect_output( str(histogram(~ DV | difficulty, data = dta)), "List of 45") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Adding effects (ex. 2/5)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') library(lattice) dta <- GRD(BSFactors="difficulty(5)", SubjectsPerGroup = 200, Population=list(mean=0,stddev=5), Effects = list("difficulty" = slope(50) ) ) expect_output( str(histogram(~ DV | difficulty, data = dta)), "List of 45") expect_output( str(hist(dta$DV, breaks=seq(-150,150,by=5) )), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Adding effects (ex. 3/5)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') library(lattice) dta <- GRD(BSFactors="difficulty(3):gender(2)", Population=list(mean=100,stddev=15), SubjectsPerGroup = 200, Effects = list( "difficulty" = extent(10), "gender"=slope(10), "difficulty*gender"=custom(-300,+200,-100,0,0,0) ) ) dta$gender = factor(dta$gender, labels=c("Male","Female")) dta$difficulty = factor(dta$difficulty, labels=c("easy","medium","hard")) plt <- histogram(~ DV | difficulty + gender, data = dta, type="density",breaks=seq(-300,400,by=10) ) expect_output( str(plt), "List of 45") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Adding effects (ex. 4/5)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') library(lattice) dta <- GRD( BSFactors = 'Reply(yes, no) : Therapy(CBT, Exercise, Control)', SubjectsPerGroup = 200, Effects = list( "Reply*Therapy"=slope(5) ) ) plt <- histogram(~ DV | Reply + Therapy, data = dta, type="density",breaks=seq(-20,20,by=1) ) expect_output( str(plt), "List of 45") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Adding effects (ex. 5/5)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') library(lattice) # The Rexpression effects are given arbitrary names # instead of factors on which to operate dta <- GRD(BSFactors="difficulty(5)", SubjectsPerGroup = 200, Population=list(mean=0,stddev=5), Effects = list( "code1" = Rexpression("if (difficulty ==1) {-50} else {0}"), "code2" = Rexpression("if (difficulty ==3) {+50} else {0}") ) ) dta$difficulty = factor(dta$difficulty, labels=c("easy","e-m","medium","m-h","hard")) plt <- histogram(~ DV | difficulty, data = dta, breaks=seq(min(dta$DV)-5,max(dta$DV)+5,by=2.5) ) # Rexpression can be any expression which can be applied to the # subject "id", the factor(s) values, and the DV itself expect_output( str(plt), "List of 45") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Specifying underlying distributions (ex. 1/3)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD(SubjectsPerGroup = 200, Population=list(mean=100,stddev=15) ) plt <- hist(dta$DV,breaks=seq(min(dta$DV,40)-5,max(dta$DV,160)+5,by=2.5)) expect_output( str(plt), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Specifying underlying distributions (ex. 2/3)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') library(lattice) # heterogeneous variances across groups dta <- GRD(SubjectsPerGroup = 200, BSFactors = "Group(2)", Population=list( mean = 100, scores = "rnorm(1, mean = GM, sd = 10 * Group)" ) ) dta$Group = factor(dta$Group, labels=c("compact group","Spread out group")) plt <- histogram(~ DV | Group, data = dta, type="density", breaks=seq(min(dta$DV)-5,max(dta$DV)+5,by=2.5) ) expect_output( str(plt), "List of 45") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Specifying underlying distributions (ex. 3/3)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD(SubjectsPerGroup = 200, Population=list( scores = "rweibull(1, shape=2, scale=40)" ) ) plt <- hist(dta$DV,breaks=seq(min(dta$DV,5)-5,max(dta$DV,160)+5,by=2.5)) # When using random number generator, always generate the numbers # one by one (so that the first argument must be 1) unless rho is set expect_output( str(plt), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Introducing contaminants (1/2)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD(SubjectsPerGroup = 200, Population=list( mean=100, stddev = 15 ), Contaminant=list( mean=200, stddev = 15, proportion = 0.10 ) ) plt <- hist(dta$DV,breaks=seq(min(dta$DV,5)-5,max(dta$DV,260)+5,by=2.5)) expect_output( str(plt), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Introducing contaminants (2/2)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD(SubjectsPerGroup = 2000, Population=list( mean=100, stddev = 15 ), Contaminant=list( scores="rweibull(1,shape=2, scale=30)+1.5*GM", proportion = 0.10 ) ) plt <- hist(dta$DV,breaks=seq(min(dta$DV,5)-5,max(dta$DV,260)+5,by=2.5)) expect_output( str(plt), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Generating multivariate normal data (1/2)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') library(lattice) dta <- GRD( BSFactors="grp(2)",WSFactors = "Moment (2)", SubjectsPerGroup = 200, Population=list(mean=0,stddev=20,rho=-0.85), Contaminant=list(mean=100,stddev=4,rho=-0.99,proportion=0.25) ) dta$grp = factor(dta$grp, labels=c("grp 1","grp 2")) plt1 <- histogram(~ DV.1 | grp, data = dta, breaks=seq(min(dta$DV.1)-5,max(dta$DV.1)+5,by=2.5) ) plt2 <- plot(dta$DV.1, dta$DV.2) expect_output( str(plt1), "List of 45") expect_output( str(plt2), "NULL") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("Generating multivariate normal data (2/2)", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors="grp(2)",WSFactors = "Moment (2)", SubjectsPerGroup = 200, Effects = list("grp" = slope(100) ), Population=list(mean=0,stddev=20,rho=-0.85), Contaminant=list(mean=100,stddev=4,rho=-0.99,proportion=0.25) ) oldpar <- par(mfrow=c(1,2)) plot(dta[dta$grp == 1,]$DV.1,dta[dta$grp==1,]$DV.2, ylim=c(-150,150), xlim=c(-150,150)) plt2 <- plot(dta[dta$grp == 2,]$DV.1,dta[dta$grp==2,]$DV.2, ylim=c(-150,150), xlim=c(-150,150)) expect_output( str(plt2), "NULL") # restores parameters par(oldpar) options("superb.feedback" = c('design','warnings','summary')) }) ################################################# ## ## ## (2) Testing the examples from the article ## ## ## ################################################# test_that("page 4", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD() expect_output( str(dta), "data.frame") expect_equal( dim(dta), c(100,2)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 5", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD() top <- head(dta,2) bot <- tail (dta,2) plt <- hist(dta$DV) expect_equal( dim(dta), c(100,2)) expect_output( str(top), "data.frame") expect_output( str(bot), "data.frame") expect_output( str(plt), "List of 6") # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 6", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( RenameDV = "score") expect_output( str(dta), "data.frame") expect_equal( dim(dta), c(100,2)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 7", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta1 <- GRD( BSFactors = "3") head(dta1,2) dta2 <- GRD( BSFactors = "2 : 3") dta3 <- GRD( BSFactors = "(yes,no) : (CBT, Control, Exercice)") expect_equal( dim(dta1), c(300,3)) expect_equal( dim(dta2), c(600,4)) expect_equal( dim(dta3), c(600,4)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 8", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors = "Surgery(2) : Therapy(3)") expect_equal( dim(dta), c(600,4)) dta <- GRD( BSFactors = "Surgery(yes,no) : Therapy(CBT, Control, Exercice)") expect_equal( dim(dta), c(600,4)) dta <- GRD( BSFactors = "(yes,no) : Therapy(3)") expect_equal( dim(dta), c(600,4)) dta <- GRD( WSFactors = "3") expect_equal( dim(dta), c(100,4)) dta <- GRD( WSFactors = "Contrast(Low,Medium,High)") head(dta, 2) expect_equal( dim(dta), c(100,4)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 9", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors = "Surgery(yes,no) : Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(Low,Medium,High)" ) expect_equal( dim(dta), c(600,6)) dta <- GRD( SubjectsPerGroup = 200 ) expect_equal( dim(dta), c(200,2)) dta <- GRD( BSFactors = "3", SubjectsPerGroup = c(20,25,50) ) expect_equal( dim(dta), c(95,3)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 10", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( RenameDV = "IQ", Population = list(mean = 100, stddev = 15) ) expect_equal( dim(dta), c(100,2)) hist(dta$IQ) dta <- GRD( BSFactors = "Group(2)", Population = list(scores = "1") ) expect_equal( dim(dta), c(200,3)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 11", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors = "Group(2)", Population = list(scores = "Group") ) expect_equal( dim(dta), c(200,3)) dta <- GRD( BSFactors = "Group(2)", Population = list( mean = 100, stddev = 15, scores = "rnorm(1, mean=GM, sd=STDDEV*Group)" ) ) expect_equal( dim(dta), c(200,3)) dta <- GRD( BSFactors = "Group(2)", Population = list( scores = "rnorm(1, mean=100, sd=15*Group)" ) ) expect_equal( dim(dta), c(200,3)) suppressWarnings(library(lawstat)) tt <- levene.test(dta$DV, dta$Group, location="mean") expect_output( str(tt), "List of 5" ) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 12", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( SubjectsPerGroup = 500, RenameDV = "RT", Population = list( scores = "rweibull(1, shape=2, scale=40)+250" ) ) plt <- hist(dta$RT, breaks = seq(250, 425, by = 5) ) expect_output( str(plt), "List of 6" ) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 14", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 200, Effects = list("Therapy" = slope(2) ) ) library(lattice) plt <- histogram(~ DV.1 | Therapy, data = dta, breaks = seq(min(dta$DV.1,-5)-1,max(dta$DV.1,5)+1,by=1), layout=c(3,1) ) expect_output( str(plt), "List of 45" ) dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 200, Effects = list("Contrast" = extent(4) ) ) library(lsr) dta2 <- wideToLong(dta, within = c("Contrast"), sep = ".") plt <- histogram( ~DV | Contrast, data = dta2, breaks = seq(min(dta$DV,-6)-1,max(dta$DV,6)+1, by=1), layout = c(3,1), aspect = 1, ylab="Percent total" ) expect_output( str(plt), "List of 45" ) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 15", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 200, Effects = list("Therapy" = custom(0,0,2) ) ) expect_equal( dim(dta), c(600,5)) dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 200, Effects = list("Therapy*Contrast" = slope(10) ) ) expect_equal( dim(dta), c(600,5)) dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 10, Effects = list( "code1" = Rexpression("if(Therapy == 'CBT') {-50} else {0}"), "code2" = Rexpression("if(Contrast == 3) {+50} else {0}") ) ) expect_equal( dim(dta), c(30,5)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("# page 16", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 10, Effects = list( "code1" = Rexpression("if(Therapy == 'CBT') {-50} else {0}"), "code2" = Rexpression("if(Contrast == 3) {+50} else {0}") ) ) library(lsr) dta2 <- wideToLong(dta, within = c("Contrast"), sep = ".") library(lattice) histogram(~ DV | Contrast + Therapy, data=dta2, breaks = seq(min(dta2$DV)-5,max(dta2$DV)+5,by=2.5) ) dta <- GRD( BSFactors = "Therapy(CBT, Control, Exercice)", WSFactors = "Contrast(3)", SubjectsPerGroup = 10, Effects = list("code1" = Rexpression("0")) # could be Rexpression("print(id);0") ) ) expect_equal( dim(dta), c(30,5)) dta <- GRD( WSFactors = "Difficulty(2)", SubjectsPerGroup = 200, Population = list(Mean = 0, stddev = 20, rho = 0.5) ) expect_equal( dim(dta), c(200,3)) plot(dta$DV.1, dta$DV.2) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 17", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( WSFactors = "Difficulty(2)", SubjectsPerGroup = 200, Population = list(Mean = c(10,2), stddev = c(1,0.2), rho = -0.85) ) plot(dta$DV.1, dta$DV.2) expect_equal( dim(dta), c(200,3)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 18", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') suppressWarnings(library(fMultivar)) # the parameters of the rmsn distribution are # xi, omega, alpha dta <- GRD( WSFactors = "Difficulty(2)", SubjectsPerGroup = 200, Population = list(rho = 99, scores = 'sn::rmsn(1, c(0,0), as.array(cbind(c(1,0.5),c(0.5,1))), c(2,-6))' ) ) plot(dta$DV.1, dta$DV.2) expect_equal( dim(dta), c(200,3)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 19", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( SubjectsPerGroup = 500, Population = list(mean = 100, stddev = 15 ), Contaminant = list(mean = 200, stddev = 15, proportion = 0.1) ) hist(dta$DV, breaks = seq(min(dta$DV,5)-5,max(dta$DV,260)+5,by=2.5)) expect_equal( dim(dta), c(500,2)) dta <- GRD( SubjectsPerGroup = 500, Population = list(mean = 100, stddev = 15 ), Contaminant = list(scores = 'rweibull(1,shape=1.5,scale=30)+1.5*GM', proportion = 0.1) ) hist(dta$DV, breaks = seq(min(dta$DV)-5,max(dta$DV)+5,by=2.5)) expect_equal( dim(dta), c(500,2)) dta <- GRD( BSFactors="grp(2)",WSFactors="M(2)", SubjectsPerGroup = 200, Effects = list("grp"=slope(100)), Population = list(mean = 0, stddev = 15, rho=-0.85 ), Contaminant = list(mean =100, stddev = 4, rho = -0.99, proportion = 0.1) ) oldpar <- par(mfrow=c(1,2)) plot(dta[dta$grp ==1,]$DV.1,dta[dta$grp==1,]$DV.2, ylim = c(-150,150), xlim = c(-150,150)) plot(dta[dta$grp ==2,]$DV.1,dta[dta$grp==2,]$DV.2, ylim = c(-150,150), xlim = c(-150,150)) expect_equal( dim(dta), c(400,4)) # restores parameters par(oldpar) options("superb.feedback" = c('design','warnings','summary')) }) test_that("page 20", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') dta <- GRD( SubjectsPerGroup = 500, Population = list(mean = 100, stddev = 15 ), Contaminant = list(scores = 'NA', proportion = 0.1) ) expect_equal( dim(dta), c(500,2)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) ################################################# ## ## ## (3) Making the figures for the article ## ## ## ################################################# test_that("figure 1", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') oldpar <- par(mfrow=c(1,3)) # panel 1: unaffected (p. 4) dta <- GRD( SubjectsPerGroup = 200 ) hist(dta$DV ) # panel 2: IQ example (p. 10) dta <- GRD( RenameDV = "IQ", Population=list(mean=100,stddev=15) ) hist(dta$IQ) # panel 3: weibull (p. 12) dta <- GRD(SubjectsPerGroup = 500, RenameDV = "RT", Population=list( scores = "rweibull(1, shape=2, scale=40)+250" ) ) hist(dta$RT,breaks=seq(min(dta$DV,245)-5,max(dta$DV,410)+5,by=5)) expect_equal( dim(dta), c(500,2)) # restores parameters par(oldpar) options("superb.feedback" = c('design','warnings','summary')) }) test_that("figure 2:", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') # panel 1: a slope of 2 on Therapy (p. 14) dta <- GRD( BSFactors = 'Surgery(yes, no) : Therapy(CBT, Control, Exercise)', WSFactors = 'Contrast(3)', SubjectsPerGroup = 100, Effects = list('Therapy' = slope(2)) ) library(lattice) p1 <- histogram(~ DV.1 | Therapy, data = dta, breaks=seq(min(dta$DV,-6)-1,max(dta$DV,6)+1,by=0.5),layout = c(3,1), aspect =1, ylab="Percent total" ) # panel 2: an extent of 20 dta <- GRD( BSFactors = 'Surgery(no, yes) : Therapy(CBT, Control, Exercise)', WSFactors = 'Contrast(3)', SubjectsPerGroup = 100, Effects = list('Contrast' = extent(4)) ) library(lsr) dta2 <- wideToLong(dta, within = c("Contrast"),sep=".") p2 <- histogram(~ DV | Contrast, data = dta2, breaks=seq(min(dta$DV,-6)-1,max(dta$DV,6)+1,by=0.5),layout = c(3,1), aspect =1, ylab="Percent total") # panel 3: a custom setting dta <- GRD( BSFactors = 'Surgery(yes, no) : Therapy(CBT, Control, Exercise)', WSFactors = 'Contrast(3)', SubjectsPerGroup = 100, Effects = list( "Therapy"=custom(0,0,2) ) ) dta2 <- wideToLong(dta, within = c("Contrast"),sep=".") p3 <- histogram(~ DV | Therapy, data = dta2, breaks=seq(min(dta$DV,-6)-1,max(dta$DV,6)+1,by=0.5),layout = c(3,1), aspect =1, ylab="Percent total") print(p1, position=c(0.00, 0.50, 0.50, 1.00), more=TRUE) print(p2, position=c(0.50, 0.50, 1.00, 1.00), more=TRUE) print(p3, position=c(0.25, 0.00, 0.75, 0.50)) expect_equal( dim(dta), c(600,6)) # restores default information options("superb.feedback" = c('design','warnings','summary')) }) test_that("figure 3:", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') oldpar <- par(mfrow=c(1,3)) # panel 1: multivariate normal dta <- GRD( WSFactors = 'Difficulty(1,2)', SubjectsPerGroup = 200, Population=list(mean=0,stddev=20,rho=0.5) ) plot(dta$DV.1, dta$DV.2) # panel 2: multivariate normal dta <- GRD( WSFactors = 'Difficulty(1,2)', SubjectsPerGroup = 200, Population=list(mean=c(10,2),stddev=c(1,0.2),rho=-0.85) ) plot(dta$DV.1, dta$DV.2) # panel 3: multivariate skew normal suppressWarnings(library(fMultivar)) # the parameters of the rmsn distribution are # xi, omega, alpha dta <- GRD( WSFactors = 'Difficulty(1, 2)', SubjectsPerGroup = 200, Population=list(rho=99,scores="sn::rmsn(1, c(0,0), as.array(cbind(c(1,0.5),c(0.5,1))), c(2,-6) )") ) plot(dta$DV.1, dta$DV.2) expect_equal( dim(dta), c(200,3)) # restores parameters par(oldpar) options("superb.feedback" = c('design','warnings','summary')) }) test_that("figure 4:", { old <- options() on.exit(options(old)) options("superb.feedback" = 'none') oldpar <- par(mfrow=c(1,4)) # panel 1 dta <- GRD(SubjectsPerGroup = 500, Population=list( mean=100, stddev = 15 ), Contaminant=list( mean=200, stddev = 15, proportion = 0.10 ) ) hist(dta$DV,breaks=seq(min(dta$DV,5)-5,max(dta$DV,260)+5,by=2.5)) #panel 2 dta <- GRD(SubjectsPerGroup = 1000, Population=list( mean=100, stddev = 15 ), Contaminant=list( scores="rweibull(1,shape=1.5, scale=30)+2*GM", proportion = 0.10 ) ) hist(dta$DV,breaks=seq(min(dta$DV,5)-5,max(dta$DV,360)+5,by=2.5)) # panel 3 dta <- GRD( BSFactors="grp(2)",WSFactors = "Moment (2)", SubjectsPerGroup = 200, Effects = list("grp" = slope(100) ), Population=list(mean=0,stddev=20,rho=-0.85), Contaminant=list(mean=100,stddev=4,rho=-0.99,proportion=0.2), ) plot(dta[dta$grp == 1,]$DV.1,dta[dta$grp==1,]$DV.2, ylim=c(-150,150), xlim=c(-150,150)) plot(dta[dta$grp == 2,]$DV.1,dta[dta$grp==2,]$DV.2, ylim=c(-150,150), xlim=c(-150,150)) #done expect_equal( dim(dta), c(400,4)) # restores parameters par(oldpar) options("superb.feedback" = c('design','warnings','summary')) })