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revisit_dsgn()
that prevented proper printing of panels when there were multiple panels.grts()
and irs()
from working properly with empty LINESTRING
or POLYGON
geometries.grts()
and irs()
from returning coordinates when the the geometry
column of sframe
was not "geometry"
and legacy_sites
was specified (#40).n_over
is now recycled if the design is stratified and n_over
is a length-one numeric vector.adjwgtNR()
function to perform non-response weight adjustments.grts()
, irs()
, and *_analysis()
functions now print using message()
instead of cat()
. This change makes the resulting output more consistent with standard practice and easier to suppress when desired (#36).attrisk_analysis()
, diffrisk_analysis()
, and relrisk_analysis()
regarding the handling of response_levels
and stressor_levels
. Previously, if response_levels
and stressor_levels
were specified, their elements required names. Now, if response_levels
is specified and its names are NULL
, then its names are set to vars_response
, and if stressor_levels
is specified and its names are NULL
, then its names are set to vars_stressor
(#33).grts()
and irs()
occurred when at least one variable name in sframe
was named "siteID"
, "siteuse"
, "replsite"
, "lon_WGS84"
, "lat_WGS84"
, "stratum"
, "wgt"
, "ip"
, "caty"
, "aux"
, xcoord
, ycoord
, or idpts
and the name of the geometry column in sframe
was not named "geometry"
(#32).sp_frame()
function to create sp_frame
objects for use with plot()
and summary()
for sampling frames and analysis data.
sp_frame
objects have class sp_frame
.sp_unframe()
function to transform sp_frame
objects back into their original object type.grts()
and irs()
are now called sp_design
objects instead of spdesign
objects.
sp_design
objects have class sp_design
.summary()
now works with sp_frame
objects and sp_design
objects.
sp_summary()
yields equivalent summaries and is currently maintained for backwards compatibility (i.e., sp_summary()
has not changed).summary
functions now also summarize sf
object geometries if the name of the geometry list-column is provided in the summary formula.plot()
now works with sp_frame
objects and sp_design
objects.
sp_plot()
yields equivalent plots and is currently maintained for backwards compatibility (i.e., sp_plot()
has not changed).plot()
now works with sp_CDF
objects that are output from the CDF
element of cont_analysis()
.
cdf_plot()
yields equivalent plots and is currently maintained for backwards compatibility (i.e., cdf_plot()
has not changed).summary()
or sp_summary()
so that they are clearer and easier to read.sp_design
objects. Now, a summary of site counts by site type (Legacy
, Base
, Over
Near
) crossed by strata or unequal probability levels or both is provided.stratum_var
, caty_var
, and aux_var
elements to the design list in sp_design
objects.legacy_stratum_var
, legacy_caty_var
, and legacy_aux_var
elements to the design list in sp_design
objects when legacy sites are used."total"
option to test
in change_analysis()
.Indicator
column when using change_analysis()
with test = median
.change_analysis
sensitive to the ordering of the levels of variables in var_cat
if those variables were factors.sp_summary()
that incorrectly ordered the siteuse
variable.sp_summary()
that failed to summarize data frames that did not have an sf_column
attribute.*_analysis()
functions when popsize
is a list intended for use with survey::calibrate()
.*analysis()
functions that returned an error while performing percentile estimation when there was no variability in at least one variable in vars
for at least one level of one variable in subpops
.grts()
that caused an error for some combinations of n_base
and n_over
.change_analysis()
that returned an error when at least one variable in vars_cat
has only one unique value.projcrs_check
argument to grts()
and irs()
, which checks whether projected coordinates are required (projcrs_check = TRUE
) or not (projcrs_check = FALSE
).n_near
) in grts()
or irs()
are now also generated for each observation in legacy_sites
.attrisk_analysis()
, diffrisk_analysis()
, and relrisk_analysis()
that sometimes caused names in response_levels
to not be found.grts()
and irs()
that returned an error when the name of the geometry
column in sframe
and legacy_sites
differed. Now when this occurs, the geometry
column in legacy_sites
is renamed to have the same name as the geometry column in sframe
.grts()
and irs()
that prevented legacy_stratum_var
, legacy_caty_var
and legacy_aux_var
from performing properly.grts()
and irs()
that returned an error when at least one stratum in legacy_sites
had zero observations.grts()
and irs()
that prevented warnprnt()
from performing properly.grts()
and irs()
that indicated when m or z values in sframe
or legacy_sites
were dropped. Now, the dropping of m or z values is explained in the documentation.grts()
and irs()
that indicated when row names were set if legacy_sites
was a tibble. Now, legacy_sites
is coerced to a base R data frame (i.e., not a tibble) before setting row names.grts()
and irs()
when legacy_stratum_var
(and legacy_caty_var
and legacy_aux_var
) are NULL
but the name of stratum_var
in sframe
is not contained in legacy_sites
.grts()
and irs()
that checks whether sframe
and legacy_sites
have the same crs.pt_density
in grts()
and irs()
to indicate that pt_density
must be a positive integer.sp_summary()
that returned an error when formula = ~ .
and the geometry column was not named "geometry"
. Now, sp_summary()
works with formula = ~ .
regardless of the name of the geometry column.grts()
and irs()
that affected minimum distance performance when legacy sites were used.grts()
and irs()
to specify reverse hierarchically ordered replacement sites with unequal selection probabilities by requiring n_over
be an integer and removing caty_n_over
.grts()
and irs()
called sep
, which acts as a separator between the character string created by DesignID
and SiteBegin
in the sites
output.pt_density
argument in grts()
and irs()
now reflects the site multiplier (instead of the per-unit density of sframe
) that generates the approximation to sframe
when sampling from LINESTRING
, MULTILINESTRING
, POLYGON
, or MULTIPOLYGON
sf objects.grts()
and irs()
that prevented use when the geometry column of sframe
was not named "geometry"
.grts()
and irs()
that sometimes caused unequal selection probabilities to be misrepresented when reverse hierarchically ordered replacement sites were desired.grts()
and irs()
that sometimes prevented the dropping of an sf object’s z or m dimension.grts()
and irs()
that sometimes incorrectly copied stratum
values as caty
values in the sites
output.grts()
and irs()
that prevented sampling from LINESTRING
, MULTILINESTRING
, POLYGON
, or MULTIPOLYGON
sf objects when pt_density
was excessively large.Total
option to the statistics
argument in cont_analysis()
.localmean_weight()
, localmean_var()
, and localmean_cov()
functions to compute the local neighborhood variance estimator outside of the *_analysis()
functions.fix_bbox
argument in sp_plot()
.grts()
and irs()
that stops the function when geographic coordinates are used.grts()
and irs()
that stops the function when too many expected samples are specified for at least one level of an unequal probability variable.caty_n_over
argument to grts()
and irs()
that makes it easier to specify reverse hierarchically ordered replacement sites for unequal probability sampling designs.n_over
and n_near
arguments in grts()
and irs()
(list arguments were already supported).siteID
in attrisk_analysis()
, cat_analysis()
, cont_analysis()
, diffrisk_analysis()
, and relrisk_analysis()
that assumes each row in dframe
represents a unique site.irs()
that made the algorithm sensitive to the ordering of sframe
.cont_analysis()
that incorrectly copied estimate values.grts()
and irs()
that prevented sampling from sframe
when the geometry type was LINESTRING
, MULTILINESTRING
, POLYGON
, or MULTIPOLYGON
and the number of desired samples exceeded the number of rows.Syntax for the grts()
(Generalized Random Tessellation Stratified) and irs()
(Independent Random Sampling) functions has been significantly simplified. These functions now require the sampling frame is an sf
object.
The grts()
and irs()
functions now accommodate legacy (or historical) sites, a minimum distance between sites, and two approaches for selecting replacement sites (reverse hierarchical ordering and nearest neighbor).
Syntax for the analysis functions (*_analysis()
) has been significantly simplified.
Risk difference analysis is now available using the diffrisk_analysis()
function.
Trend analysis is now available using the trend_analysis()
function.
The sp_summary()
function is now available to summarize sampling frames, design sites, and analysis data.
The sp_plot()
function is now available to visualize sampling frames, design sites, and analysis data.
Fixed code so that sp design objects inherit CRS of input files and shapefiles written out also have inherited projection from input file. (#2)
Variable sframe$len was used in grts function and never defined. Now uses length_mdm that is calculated earlier. (#6)
sf
and changes to crs
described herelocalmean.weight
function to correct when class for matrix objects was causing an indicator variable to have length two rather than length one, which caused an error in a while statement.Functions that create survey designs were modified to replace use of shapefiles to provide the survey frame with use of simple features sf
objects to provide the survey frame. To accommodate this change, argument src.frame for functions grts
and irs
now will accept the choice sf.object
to indicate that an sf
object will be used as the source of the survey frame. In addition, a new argument named sf.object
was added to functions grts
and irs
to allow input of an sf
object as the survey frame. Also, note that arguments id, maxtry, and prjfilename for functions grts
and irs
have been depricated since they are no longer needed. Finally, the three rda files in the data directory that contain survey frame objects (NE_lakes
, Luck_Ash_streams
, and UT_ecoregions
) were revised to contain sf
objects rather than objects belonging to classes that are defined in the sp
package.
The package no longer contains any functions written in C. The C functions were either no longer required due to the transition to use of sf
objects to contain the survey frame or were replaced with functions written in R. The new R functions are: cellWeight
, constructAddr
, insideAreaGridCell
, insideLinearGridCell
, make_grid
, numLevels
, pickFiniteSamplePoints
, pickGridCells
, pickSamplePoints
, ranho
, and selectFeatureID
.
numLevels
that determines the number of hierarchical levels for a generalized random-tessellation stratified (GRTS) survey design now includes code to ensure that the maximum number of levels (which is currently 11) is not bypassed when creating a survey design.input.check
to check for missing values among the x-coordinates and y-coordinates for location.Necessary changes were enacted so that the package can be built within RStudio, e.g., roxygen comments were added to R source files.
Created functions that create panel designs and that compute and plot power for panel designs given a linear trend. Function revisit_dsgn
creates a panel revisit design. Function revisit_bibd
creates a balanced incomplete block panel revisit design. Function revisit_rand
creates a revisit design with random assignment to panels and time periods. Function panel_summary
summarizes characteristics of a revisit panel design. Function power.dsgn
calculates power for multiple panel designs. Function cov.panel.dsgn
creates the covariance matrix for a panel design. Function plot.powerpaneldesign
plots power curves for panel designs.
readDbfFile
to avoid PROTECT errors.Modified C functions insideAreaGridCell
, insideLinearGridCell
, linSample
, linSampleIRS
, numLevels
, pickAreaSamplePoints
, pickLinearSamplePoints
, and pointInPolygonFile
to avoid PROTECT errors.
Modified function change.analysis
to assign the support_2 variable from the design_2 data frame rather than from the design_1 data frame.
Modified function change.analysis
to use a revised procedure for ensuring that each repeated visit site is present in both surveys for subpopulation estimation.
Modified C functions writeShapeFilePoint
and writeShapeFilePolygon
to correct memory access errors.
Modified C function readDbfFile
to ensure that missing values (NA) are handled correctly.
grts
, grtsarea
, grtslin
, grtspts
, irs
, irsarea
, irslin
, read.dbf
, and read.shape
to prevent the functions from being executed on big-endian processors.order.h
and replaced C functions readBigEndian
and readLittleEndian
with the version of those functions from spsurvey
version 3.1.Created a vignette for change estimation.
Modified functions change.analysis
and change.est
to include estimation for difference in median values for change estimation using continuous variables.
Created a function named examine
that examines variables in a data frame by printing either a table or the results of a call to the describe function in the Hmisc
package.
Modified function sp2shape
to accommodate objects of class SpatialDesign
created by either the grts
or irs
functions.
Added a C header file named order.h
that determines whether the CPU employs big-endian or little-endian byte order. Also, modified C functions readBigEndian
and readLittleEndian
to use constants created by the header file to ensure that computer words are read in the correct byte order.
Modified function input.check
to ensure that use of numeric variables for arguments stratum
and cluster
are handled correctly when finite or continuous population correction factors are utilized.
Modified function cdf.test
to ensure upper bounds that define classes for the CDFs are unique. Also, modified functions cont.cdftest
and cdf.test
to reduce the minimum number of upper bounds that define classes for the CDFs from three to two.
Modified functions sp2shape
and read.dbf
to ensure that missing values are handled without error for character vectors.
Modified functions grts
and irs
to ensure that a dataframe
object is assigned to argument att.frame
when argument src.frame
is assigned value att.frame
.
Modified function change.analysis
to ensure that each repeated visit site is present in both surveys for subpopulation estimation.
Modified function read.sas
to use “C:/Program Files/SASHome/SASFoundation/9.4/sas.exe” as the default value for argument sascmd
.
malloc
are of type unsigned integer.Created a class named SpatialDesign
that contains class SpatialPointsDataFrame
, which is defined in package sp
. The class is used for the output objects created by functions grts
and irs
. Objects of class SpatialDesign
include the survey design list as a slot rather than as an attribute, which was used previously.
Created S3 and S4 methods for generic functions plot
and summary
for objects of class SpatialDesign
.
Modified C functions to change the type declaration for variable shpFileName
from const char *
to char * restrict
.
Modified C functions writeDbfFile
, writeShapeFilePoint
, and writeShapeFilePolygon
to change the return type from void to SEXP NULL, i.e., R_NilValue.
Modified function input.check
to remove missing values from final adjusted weights prior to checking that all values are positive.
Modified functions grtspts
, grtslin
, and grtsarea
to ensure that argument nlev
(number of hierarchical levels) for C function constructAddr
was stored as type integer.
cex.main
argument to the cont.cdfplot
and cdf.plot
functions.warnprnt
to use correct variable names in the output data frame so that partial matching warnings for the names are not generated.Modified function change.analysis
to allow analysis of surveys with no repeat visit sites.
Modified function change.est
to ensure that levels for a categorical response variable are listed in the desired order rather than sorted order.
Modified function localmean.weight
to allow recovery from an error in the singular value decomposition function La.svd
that is called by the generalized inverse function ginv
in the MASS
package. Also, created a support function named localmean.weight2
.
grtspts
and C function numLevels
to calculate the sampling grid random shift values only once rather than each time the number of hierarchical levels is incremented.Modified functions attrisk.analysis
, cat.analysis
, change.analysis
, cont.analysis
, and relrisk.analysis
to replace NA values with FALSE in the indicator variables for subpopulations.
Modified function spbalance
to include all grid cells with nonzero extent for the frame when calculating the Pielou evenness measure for a rectangular grid.
Modified function localmean.weight
to ensure that the initial set of weights are inversely proportional to distance.
Modified functions cont.cdftest
and cdf.test
to ensure that the number of classes into which the CDFs will be divided (binned) is at least three.
Modified function dframe.check
to ensure proper handling of repeated site ID values in the sites data frame.
Created a vignette that presents deconvolution of a cumulative distribution function (CDF) generated by a GRTS survey design.
Created a function named spbalance
that calculates spatial balance metrics for a survey design.
Created functions named sbcframe
and sbcsamp
that calculate spatial balance grid cell extent and proportions for a sample frame and for a survey design, respectively.
Modified function change.est
to include calculation of resource size change estimates for categorical variables.
Created a function named changevar.size
to calculate covariance or correlation estimates of the estimated change in class resource size estimates between two probability surveys.
Modified function change.est
to correct errors in the output values for categorical variables from survey designs that lack repeat visit sites.
Modified the following functions to assign consecutive numbers to the row names for the output data frame(s): attrisk.analysis
, cat.analysis
, change.analysis
, cont.analysis
, cont.cdftest
, and relrisk.analysis
.
Created a function named change.analysis
that conducts change analysis for a collection of response variables (categorical and continuous) generated by two probability surveys.
Created functions named change.est
, changevar.prop
, and changevar.mean
to calculate estimates of change and its associated variance.
Created a vignette that presents cumulative distribution function (CDF) analysis of a GRTS survey design.
Added a function named ash1.wgt
that computes the average shifted histogram (ASH) for weighted data.
Modified function grtspts
to correct an error that occurs when argument src.frame
equals att.frame
and the number of hierarchical levels equals eleven.
Modified C functions printAddrList
, printColCharList
, code{printDbf
to replace calls to the printf
function with calls to the Rprintf
function.
Modified C function pickAreaSamplePoints
to correct an error that occurs when selecting sample points for PolygonZ and PolygonM type shapefiles.
Created an .onAttach
function that prints a message when the spsurvey
package is attached. Removed the .onLoad
function, which prior versions used to to print a startup message.
In order to reduce package size, removed demonstration (demo) R scripts and the associated data directory.
Created vignettes that present analyses of GRTS survey designs for finite, linear, and areal resources.
Created a function named attrisk.analysis
that conducts attributable risk analysis for a collection of response variables generated by a probability survey.
Created functions named attrisk.est
and attrisk.var
to calculate estimates of attributable risk and its associated variance.
Modified function relrisk.est
to change the way the relative risk estimate is calculated for a stratified sample.
Modified functions cat.analysis
, cont.analysis
, cont.cdftest
, relrisk.analysis
, category.est
, cdf.est
, cdf.decon
, total.est
, cdf.test
, relrisk.est
, catvar.prop
, catvar.size
, cdfvar.prop
, cdfvar.total
, cdfvar.size.prop
, cdfvar.size.total
, dcdfvar.prop
, dcdfvar.total
, dcdfvar.size.prop
, dcdfvar.size.total
, total.var
, cdfvar.test
, and relrisk.var
to allow variance estimates to be calculated when a two stage sample has stage one sampling units that contain a single stage two sampling unit. Variance for those stage one sampling units is calculated using the mean of the variance estimates for stage one sampling units that contain two or more stage two sampling units.
Modified function grtslin
to improve efficiency of sample point selection. Created a C function named insideLinearGridCell
that, for each grid cell selected to receive a sample point, returns the ID value for shapefile records contained in the cell and the clipped length of the polyline segments within the cell for each record. Created a C function named pickLinearSamplePoints
that selects sample points.
Modified function grtsarea
to improve efficiency of sample point selection. Created a C function named insideAreaGridCell
that, for each grid cell selected to receive a sample point, returns the ID value for shapefile records contained in the cell and the clipped area of the polygon within the cell for each record. Created a C function named pickAreaSamplePoints
that selects sample points.
Modified function input.check
to include determination of whether a valid value was provided for argument vartype
.
Modified functions grts
and irs
so that correct survey design weights are created for linear and areal designs when the type of random selection is “continuous”.
Modified functions grtspts
, grtslin
, and grtsarea
to execute without error for a stratum sample size of one.
Modified function dframe.check
to terminate execution when missing values are encountered in the logical variable of the sites data frame.
Created vignettes that present examples of GRTS survey designs for finite, linear, and areal resources.
Created a function named geodalbers
that projects latitude and longitude (spheroid) models of the globe to Albers projection in the plane.
Modified function dsgnsum
to produce summary tables for the actual set of design variables that are present rather than a standard set of design variables.
Modified function dframe.check
to terminate execution when missing site ID values or repeated site ID values are encountered in the sites
, design
, subpop
, data.cat
, data.cont
, or data.rr
data frames. Note that dframe.check
is called by functions cat.analysis
, cont.analysis
, cont.cdftest
, and relrisk.analysis
.
Modified function cont.cdftest
to correct an error caused by improper handling of an empty subpopulation.
Modified function relrisk.analysis
to correct an error resulting from inclusion of more than one response variable in the response.var
argument.
Eliminated use of argument unitsize
(known sum of size-weights) by package functions. Restricted argument popsize
to provide only the known size of the resource for use in ratio adjustment of estimators. Created a new argument named pcfsize
to provide resource size for calculation of finite and continuous population correction factors for single-stage samples.
Modified functions cat.analysis
, cont.analysis
, cont.cdftest
, and relrisk.analysis
to add logical variables to their argument lists that specify use of finite or continuous population correction factors or use of size-weights in analysis routines.
Modified functions category.est
, cdf.decon
, cdf.est
, cdf.test
, relrisk.est
and total.est
to add logical variables to their argument lists that specify use of finite or continuous population correction factors or use of size-weights.
Modified function irs
to eliminate checking for existence of x-coordinates and y-coordinates when the type of frame is “finite” and the frame is included in the att.frame
data frame.
Modified C functions parseFields
and readDbfFile
to ensure that blank values in the shapefile attributes (dbf) file are converted to R missing values (NA).
Modified C function writeDbfFile
to output blank values for R missing values (NA) when creating the shapefile attributes (dbf) file.
Modified functions grts
, irs
, and sp2shape
to ensure that an output shapefile attributes (dbf) file containing character variables with missing values can be read without error.
Created a function named cont.cdftest
that tests for differences between cumulative distribution functions (CDFs) for pairs of subpopulations within a population Type
for a collection of response variables generated by a probability survey. Also, modified function cdf.test
so that it is consistent with functions that are called by high-level functions cat.analysis
and cont.analysis
.
Modified function grtspts
so that, when source of the frame equals “att.frame”, the current number of grid levels for hierarchical randomization and the final number of grid levels is printed to the console while the function is executing.
Created a function named relrisk.analysis
that conducts relative risk analysis for a collection of response variables generated by a probability survey. Also, renamed function relrisk
to relrisk.est
and modified the function so that it is consistent with functions that are called by high-level functions cat.analysis
and cont.analysis
.
Modified function grtspts
and C function numLevels
to terminate the algorithm for determining the number of grid levels for hierarchical randomization when the maximum value of total inclusion probability for the grid cells stops changing as the number of levels increases.
Created functions named cdf.plot
and cont.cdfplot
that create cumulative distribution function (CDF) plots using the data frame named “CDF” contained in the output object created by function cont.analysis
. Function cdf.plot
creates a single CDF plot, and function cont.cdfplot
creates a set of CDF plots.
Created a function named read.sas
that can read SAS datasets or a SAS XPORT (transport) file.
Modified C functions intersect
, linSampleIRS
, lintFcn
, and linSample
to eliminate warning messages that were generated during package creation.
Modified function grts
so that argument do.sample
provides a value for each stratum.
Modified C functions getRecordShapeSizes
, readDbfFile
, parsePoints
, parsePointsZ
, parsePointsM
, parsePolygon
, parsePolygonZ
, and parsePolygonM
to generate error messages and terminate execution when a shapefile containing a Null record is encountered.
Modified functions irslin
and irsarea
in addition to C function getRecordIDs
to ensure that sample points are selected in random order for linear and areal IRS designs.
Modified function grts
to ensure that, when the type of random selection is “unequal”, an oversample is apportioned correctly whenever the category sample sizes are proportional to the oversample size.
For C functions that read shapefiles from the current directory, replaced calls to _findfirst
and _findnext
with code using calls to readdir
. These changes were implemented to facilitate portability of the package.
Created a C function named matchFiles
that determines whether file names in the current directory have a desired file extension. This change was implemented to facilitate portability of the package.
Modified functions grts
and irs
to accommodate use of a factor for the ID variable in the attributes data frame.
Modified functions grts
and irs
to ensure that sample weights are correctly adjusted when an oversample is present and the type of random selection is “Continuous”.
getRecordShapeSizes
and lintFcn
to accommodate Polyline shapefiles that have multiple parts.Modified functions dsgnsum
and sp2shape
to accommodate the change in representation from AttributeList
to data.frame
for the data slot of sp package objects belonging to class SpatialPointsDataFrame
.
Modified functions grts
and irs
to print a warning message when the type of frame equals “finite” and a stratum name in the design list matches only a single value in the stratum column of the attributes data frame. For this case, function grtspts
or irspts
is not called since the sample will be composed of a single point.
Modified functions grts
, grtspts
, grtslin
, and grtsarea
to change the maximum value allowed for arguments startlev (the initial number of hierarchical levels to use for the GRTS grid) and maxlev (the maximum number of hierarchical levels to use for the GRTS grid) from 12 to 11.
Added an example polylines dataset to the data directory.
Modified functions grts
and irs
to allow use of an sp package object as the source of the frame. An argument named sp.object
was added to the argument list for grts
and irs
.
Modified functions grts
, grtspts
, grtslin
, grtsarea
, irs
, irspts
, irslin
, and irsarea
to remove use of argument xy.frame
as an option for source of the frame. Then modified functions grts
, grtspts
, irs
, and irspts
to allow incorporation of frame coordinates into the attributes data frame when the type of frame equals “finite”. Also, removed argument elmsize
from functions grts
and irs
since the argument no longer was required.
Modified functions grts
and irs
to print a warning message when the type of frame equals “finite” and a stratum name in the design list matches only a single value in the stratum column of the attributes data frame. For this case, function grtspts
or irspts
is not called since the sample will be composed of a single point.
Modified functions grts
and irs
to ensure that the ID values for elements of the frame provided in att.frame are unique.
Modified functions grts
and irs
to ensure that valid values are provided for the panel
and caty.n
arguments in the design list.
Added an example polygons dataset to the data directory.
Incorporated the CHANGES, README, and UserGuide files into the help page.
sp2shape
and a C function named writeShapeFilePolygon
that convert objects created by package sp
to ESRI shapefiles. Also, renamed the C function writeShapeFile
to writeShapeFilePoint
.irsarea
and created a C function named getRecordIDs
to ensure that an IRS sample is selected when argument type.frame
is set to “area” in function irs
.Modified functions grts
and irs
to ensure that the levels of mdcaty
(the variable in the attributes data frame that specifies the unequal probability category for each element in the frame) are equivalent to the names in caty.n
(the vector of sample sizes for each category in mdcaty
, which is required for each element of the design list for which the selection type is “Unequal”).
Modified functions grts
and irs
to ensure that the columns of xy.frame
are named “x” and “y” when xy.frame
is provided and type.frame
equals “finite”.
Modified functions grts
and irs
so that the sample weights are correctly adjusted when an oversample is requested and the realized sample size is less than the desired sample size.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.