Nothing
R/AAMMR.R
In DHS.rates: Calculates Demographic Indicators
# AAMMR function: calculate AAMMR
# Mahmoud Elkasabi
# 09/23/2020
AAMMR <- function (Data.Name, JK = NULL, CL = NULL,
PeriodEnd = NULL, Period = NULL)
{
v013 <- rweight <- mm1 <- sex <- exposure <- agegrp <- mm_death <- NULL
Data.Name <- Data.Name[!Data.Name$v005 == 0, ]
Data.Name$ID <- seq.int(nrow(Data.Name))
# The CI confidence level
if (is.null(CL)) {
Z <- stats::qnorm(.025,lower.tail=FALSE)
} else {
Z <- stats::qnorm((100-CL)/200,lower.tail=FALSE)
}
## Title for the results #########################
if (is.null(Period)){Periodmsg = 84} else {Periodmsg = Period}
if (is.null(PeriodEnd)){
PeriodEndy_ <- as.integer((mean(Data.Name$v008) - 1)/12)+1900
PeriodEndm_ <- round(mean(Data.Name$v008) - ((PeriodEndy_ - 1900) * 12),0)
PeriodEndm_m <- round(min(Data.Name$v008) - ((PeriodEndy_ - 1900) * 12),0)
PeriodEndm_x <- round(max(Data.Name$v008) - ((PeriodEndy_ - 1900) * 12),0)
} else {
dates <- paste(PeriodEnd, "01", sep = "-")
PeriodEndm_ <- as.numeric(format(as.Date(dates), "%m"))
PeriodEndy_ <- as.numeric(format(as.Date(dates), "%Y"))
if (PeriodEndm_ >= round(mean(Data.Name$v008) - (((as.integer((mean(Data.Name$v008) - 1)/12)+1900) - 1900) * 12),0) &
PeriodEndy_ >= as.integer((mean(Data.Name$v008) - 1)/12)+1900)
message(crayon::bold("Note:", "\n",
"You specified a reference period that ends after the survey fieldwork dates....."), "\n",
"1. Make sure the dates in the survey are coded according to the Gregorian calendar.", "\n",
"2. If the dates are coded according to the Gregorian calendar, use a proper PeriodEnd that came before the time of the survey.", "\n",
"3. If the dates are not coded according to the Gregorian calendar, use a PeriodEnd according to the used calendar.")
}
if (is.null(PeriodEnd)){
cat("\n", crayon::white$bgBlue$bold("The current function calculated AAMMR based on a reference period of"),
crayon::red$bold$underline(Periodmsg), crayon::white$bold$bgBlue("months"), "\n", crayon::white$bold$bgBlue("The reference period ended at the time of the interview, in"), crayon::red$bold$underline(PeriodEndy_ + round(PeriodEndm_/12,digits=2)), "OR", crayon::red$bold$underline(month.abb[PeriodEndm_m]), "-", crayon::red$bold$underline(month.abb[PeriodEndm_x]), crayon::red$bold$underline(PeriodEndy_), "\n",
crayon::white$bold$bgBlue("The average reference period is"), crayon::red$bold$underline(round((PeriodEndy_ + PeriodEndm_/12)-(Periodmsg/24), digits =2)), "\n")
} else {
cat("\n", crayon::white$bgBlue$bold("The current function calculated AAMMR based on a reference period of"),
crayon::red$bold$underline(Periodmsg), crayon::white$bold$bgBlue("months"), "\n", crayon::white$bold$bgBlue("The reference period ended in"), crayon::red$bold$underline(PeriodEndy_ + round(PeriodEndm_/12,digits=2)), "OR", crayon::red$bold$underline(month.abb[PeriodEndm_]), crayon::red$bold$underline(PeriodEndy_), "\n",
crayon::white$bold$bgBlue("The average reference period is"), crayon::red$bold$underline(round((PeriodEndy_ + PeriodEndm_/12)-(Periodmsg/24), digits =2)), "\n")
}
Data.Name$id <- c(as.factor(Data.Name$v021))
Data.Name$rweight = Data.Name$v005 / 1000000
DeathEx <- DataPrepareM(Data.Name, PeriodEnd, Period)
if (is.null(JK)){PSU <- 0} else {PSU <- max(as.numeric(DeathEx$id))}
DeathEx$mm9[is.na(DeathEx$mm9)] <- 0
DeathEx$prm_death = ifelse(DeathEx$mm1 ==2 & DeathEx$mm9 >= 2 & DeathEx$mm9 <= 6, DeathEx$death, 0)
PRMMRT = 0
PRMMRT <- ifelse("TRUE" %in% ("PRMMRT" %in% names(Data.Name)), 0, 1)
if (PRMMRT==0) {
stop({message("Error: mm16 is missing; calculating Maternal Mortality Rate is not possible. Try Indicator = AAPRMR for Pregnancy Related Mortality Rate.")})
} else {
DeathEx$mm_death = 0
DeathEx$mm_death = ifelse(((DeathEx$mm12 >= 100 & DeathEx$mm12 <= 141) |
(DeathEx$mm12 == 198 | DeathEx$mm12 == 199 | is.na(DeathEx$mm12))) &
(!DeathEx$mm16 == 1 & !DeathEx$mm16 == 2),
DeathEx$prm_death, 0)
DeathEx$mm_death = ifelse(is.na(DeathEx$mm_death),
0, DeathEx$mm_death)
}
options(dplyr.summarise.inform = FALSE)
AGEDIST <- (dplyr::group_by(Data.Name, v013) %>% summarise(x = sum(rweight)))$x/sum(Data.Name$rweight)
options(survey.lonely.psu = "adjust")
dstrat <- survey::svydesign(id = ~ v021, strata = ~ v022, weights = ~ rweight, data = DeathEx)
dsub <- subset(dstrat, mm1==2)
asmmr <- (survey::svyby(~ mm_death, by = ~ agegrp, denominator = ~ exposure,
design = dsub, survey::svyratio))[, 2]
aammr <- sum(asmmr[1:7] * AGEDIST)
PMDFtotal <- 100*(survey::svyratio(~ mm_death, denominator = ~ death,
design = dsub))$ratio[, 1]
N = (dplyr::group_by(DeathEx, sex) %>% summarise(x = sum(exposure)))$x[1]
WN = (survey::svyby(~ exposure, by = ~ sex, design = dsub, survey::svytotal))$exposure[1]
AAMMR_DEFT = sqrt(survey::svyby(~ mm_death, by = ~ sex, denominator = ~ exposure,
design = dsub, deff = "replace", survey::svyratio)$DEff)[1]
deaths <- WN*(aammr/1000)
JKres <- matrix(0, nrow = PSU, ncol = 1)
dimnames(JKres) <- list(NULL, c("AAMMRj_f"))
if (is.null(JK)){
RESULTS <- cbind.data.frame(round(PMDFtotal, 2), round(deaths, 0), round(WN, 0), round(aammr,3), round(N, 0), row.names = NULL)
names(RESULTS) <- c("Maternal_Deaths%","Deaths","Exposure_years", "AAMMR", "N")
list(RESULTS)
} else {
for (i in unique(as.numeric(DeathEx$id)))
{
Data.NameJ <- Data.Name[which(!Data.Name$id == i), ]
AGEDISTj <- (dplyr::group_by(Data.NameJ, v013) %>% summarise(x = sum(rweight)))$x/sum(Data.NameJ$rweight)
DeathExJ <- DeathEx[which(!DeathEx$id == i), ]
ASMMRj <- (dplyr::group_by(DeathExJ, sex, agegrp) %>% summarise(x = sum(mm_death*rweight)))$x/
(dplyr::group_by(DeathExJ, sex, agegrp) %>% summarise(x = sum(exposure*rweight)))$x
JKres[i,1] <- sum(ASMMRj[1:7] * AGEDISTj)
}
AAMMRjf = JKres[1:PSU, 1]
JKSEf = ((PSU * aammr[1] - (PSU-1) * AAMMRjf)-aammr[1])^2
SE = sqrt(sum(JKSEf) / (PSU * (PSU-1)))
RSE = SE / aammr
LCI = aammr - (Z * SE)
LCI[LCI <= 0] = 0
UCI = aammr + (Z * SE)
PSUs = PSU
RESULTS <- cbind.data.frame(round(PMDFtotal, 2), round(deaths, 0), round(WN, 0), round(aammr,3), round(SE,3), round(N, 0), round(AAMMR_DEFT,3), round(RSE,3), round(LCI,3), round(UCI,3), PSUs, row.names = NULL)
names(RESULTS) <- c("Maternal_Deaths%", "Deaths","Exposure_years","AAMMR", "SE", "N", "DEFT", "RSE", "LCI", "UCI", "iterations")
list(RESULTS)
}
}
Try the DHS.rates package in your browser
Any scripts or data that you put into this service are public.
DHS.rates documentation built on Dec. 11, 2021, 10:01 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
# AAMMR function: calculate AAMMR
# Mahmoud Elkasabi
# 09/23/2020
AAMMR <- function (Data.Name, JK = NULL, CL = NULL,
PeriodEnd = NULL, Period = NULL)
{
v013 <- rweight <- mm1 <- sex <- exposure <- agegrp <- mm_death <- NULL
Data.Name <- Data.Name[!Data.Name$v005 == 0, ]
Data.Name$ID <- seq.int(nrow(Data.Name))
# The CI confidence level
if (is.null(CL)) {
Z <- stats::qnorm(.025,lower.tail=FALSE)
} else {
Z <- stats::qnorm((100-CL)/200,lower.tail=FALSE)
}
## Title for the results #########################
if (is.null(Period)){Periodmsg = 84} else {Periodmsg = Period}
if (is.null(PeriodEnd)){
PeriodEndy_ <- as.integer((mean(Data.Name$v008) - 1)/12)+1900
PeriodEndm_ <- round(mean(Data.Name$v008) - ((PeriodEndy_ - 1900) * 12),0)
PeriodEndm_m <- round(min(Data.Name$v008) - ((PeriodEndy_ - 1900) * 12),0)
PeriodEndm_x <- round(max(Data.Name$v008) - ((PeriodEndy_ - 1900) * 12),0)
} else {
dates <- paste(PeriodEnd, "01", sep = "-")
PeriodEndm_ <- as.numeric(format(as.Date(dates), "%m"))
PeriodEndy_ <- as.numeric(format(as.Date(dates), "%Y"))
if (PeriodEndm_ >= round(mean(Data.Name$v008) - (((as.integer((mean(Data.Name$v008) - 1)/12)+1900) - 1900) * 12),0) &
PeriodEndy_ >= as.integer((mean(Data.Name$v008) - 1)/12)+1900)
message(crayon::bold("Note:", "\n",
"You specified a reference period that ends after the survey fieldwork dates....."), "\n",
"1. Make sure the dates in the survey are coded according to the Gregorian calendar.", "\n",
"2. If the dates are coded according to the Gregorian calendar, use a proper PeriodEnd that came before the time of the survey.", "\n",
"3. If the dates are not coded according to the Gregorian calendar, use a PeriodEnd according to the used calendar.")
}
if (is.null(PeriodEnd)){
cat("\n", crayon::white$bgBlue$bold("The current function calculated AAMMR based on a reference period of"),
crayon::red$bold$underline(Periodmsg), crayon::white$bold$bgBlue("months"), "\n", crayon::white$bold$bgBlue("The reference period ended at the time of the interview, in"), crayon::red$bold$underline(PeriodEndy_ + round(PeriodEndm_/12,digits=2)), "OR", crayon::red$bold$underline(month.abb[PeriodEndm_m]), "-", crayon::red$bold$underline(month.abb[PeriodEndm_x]), crayon::red$bold$underline(PeriodEndy_), "\n",
crayon::white$bold$bgBlue("The average reference period is"), crayon::red$bold$underline(round((PeriodEndy_ + PeriodEndm_/12)-(Periodmsg/24), digits =2)), "\n")
} else {
cat("\n", crayon::white$bgBlue$bold("The current function calculated AAMMR based on a reference period of"),
crayon::red$bold$underline(Periodmsg), crayon::white$bold$bgBlue("months"), "\n", crayon::white$bold$bgBlue("The reference period ended in"), crayon::red$bold$underline(PeriodEndy_ + round(PeriodEndm_/12,digits=2)), "OR", crayon::red$bold$underline(month.abb[PeriodEndm_]), crayon::red$bold$underline(PeriodEndy_), "\n",
crayon::white$bold$bgBlue("The average reference period is"), crayon::red$bold$underline(round((PeriodEndy_ + PeriodEndm_/12)-(Periodmsg/24), digits =2)), "\n")
}
Data.Name$id <- c(as.factor(Data.Name$v021))
Data.Name$rweight = Data.Name$v005 / 1000000
DeathEx <- DataPrepareM(Data.Name, PeriodEnd, Period)
if (is.null(JK)){PSU <- 0} else {PSU <- max(as.numeric(DeathEx$id))}
DeathEx$mm9[is.na(DeathEx$mm9)] <- 0
DeathEx$prm_death = ifelse(DeathEx$mm1 ==2 & DeathEx$mm9 >= 2 & DeathEx$mm9 <= 6, DeathEx$death, 0)
PRMMRT = 0
PRMMRT <- ifelse("TRUE" %in% ("PRMMRT" %in% names(Data.Name)), 0, 1)
if (PRMMRT==0) {
stop({message("Error: mm16 is missing; calculating Maternal Mortality Rate is not possible. Try Indicator = AAPRMR for Pregnancy Related Mortality Rate.")})
} else {
DeathEx$mm_death = 0
DeathEx$mm_death = ifelse(((DeathEx$mm12 >= 100 & DeathEx$mm12 <= 141) |
(DeathEx$mm12 == 198 | DeathEx$mm12 == 199 | is.na(DeathEx$mm12))) &
(!DeathEx$mm16 == 1 & !DeathEx$mm16 == 2),
DeathEx$prm_death, 0)
DeathEx$mm_death = ifelse(is.na(DeathEx$mm_death),
0, DeathEx$mm_death)
}
options(dplyr.summarise.inform = FALSE)
AGEDIST <- (dplyr::group_by(Data.Name, v013) %>% summarise(x = sum(rweight)))$x/sum(Data.Name$rweight)
options(survey.lonely.psu = "adjust")
dstrat <- survey::svydesign(id = ~ v021, strata = ~ v022, weights = ~ rweight, data = DeathEx)
dsub <- subset(dstrat, mm1==2)
asmmr <- (survey::svyby(~ mm_death, by = ~ agegrp, denominator = ~ exposure,
design = dsub, survey::svyratio))[, 2]
aammr <- sum(asmmr[1:7] * AGEDIST)
PMDFtotal <- 100*(survey::svyratio(~ mm_death, denominator = ~ death,
design = dsub))$ratio[, 1]
N = (dplyr::group_by(DeathEx, sex) %>% summarise(x = sum(exposure)))$x[1]
WN = (survey::svyby(~ exposure, by = ~ sex, design = dsub, survey::svytotal))$exposure[1]
AAMMR_DEFT = sqrt(survey::svyby(~ mm_death, by = ~ sex, denominator = ~ exposure,
design = dsub, deff = "replace", survey::svyratio)$DEff)[1]
deaths <- WN*(aammr/1000)
JKres <- matrix(0, nrow = PSU, ncol = 1)
dimnames(JKres) <- list(NULL, c("AAMMRj_f"))
if (is.null(JK)){
RESULTS <- cbind.data.frame(round(PMDFtotal, 2), round(deaths, 0), round(WN, 0), round(aammr,3), round(N, 0), row.names = NULL)
names(RESULTS) <- c("Maternal_Deaths%","Deaths","Exposure_years", "AAMMR", "N")
list(RESULTS)
} else {
for (i in unique(as.numeric(DeathEx$id)))
{
Data.NameJ <- Data.Name[which(!Data.Name$id == i), ]
AGEDISTj <- (dplyr::group_by(Data.NameJ, v013) %>% summarise(x = sum(rweight)))$x/sum(Data.NameJ$rweight)
DeathExJ <- DeathEx[which(!DeathEx$id == i), ]
ASMMRj <- (dplyr::group_by(DeathExJ, sex, agegrp) %>% summarise(x = sum(mm_death*rweight)))$x/
(dplyr::group_by(DeathExJ, sex, agegrp) %>% summarise(x = sum(exposure*rweight)))$x
JKres[i,1] <- sum(ASMMRj[1:7] * AGEDISTj)
}
AAMMRjf = JKres[1:PSU, 1]
JKSEf = ((PSU * aammr[1] - (PSU-1) * AAMMRjf)-aammr[1])^2
SE = sqrt(sum(JKSEf) / (PSU * (PSU-1)))
RSE = SE / aammr
LCI = aammr - (Z * SE)
LCI[LCI <= 0] = 0
UCI = aammr + (Z * SE)
PSUs = PSU
RESULTS <- cbind.data.frame(round(PMDFtotal, 2), round(deaths, 0), round(WN, 0), round(aammr,3), round(SE,3), round(N, 0), round(AAMMR_DEFT,3), round(RSE,3), round(LCI,3), round(UCI,3), PSUs, row.names = NULL)
names(RESULTS) <- c("Maternal_Deaths%", "Deaths","Exposure_years","AAMMR", "SE", "N", "DEFT", "RSE", "LCI", "UCI", "iterations")
list(RESULTS)
}
}
Try the DHS.rates package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.