* using log directory 'd:/RCompile/CRANincoming/R-devel/HonestDiD.Rcheck' * using R Under development (unstable) (2024-02-22 r85974 ucrt) * using platform: x86_64-w64-mingw32 * R was compiled by gcc.exe (GCC) 12.3.0 GNU Fortran (GCC) 12.3.0 * running under: Windows Server 2022 x64 (build 20348) * using session charset: UTF-8 * checking for file 'HonestDiD/DESCRIPTION' ... OK * checking extension type ... Package * this is package 'HonestDiD' version '0.2.5' * package encoding: UTF-8 * checking CRAN incoming feasibility ... NOTE Maintainer: 'Ashesh Rambachan ' New submission Possibly misspelled words in DESCRIPTION: RESTUD (17:170) Rambachan (17:146) * checking package namespace information ... OK * checking package dependencies ... OK * checking if this is a source package ... OK * checking if there is a namespace ... OK * checking for hidden files and directories ... OK * checking for portable file names ... OK * checking whether package 'HonestDiD' can be installed ... OK * checking installed package size ... OK * checking package directory ... OK * checking for future file timestamps ... OK * checking 'build' directory ... OK * checking DESCRIPTION meta-information ... OK * checking top-level files ... OK * checking for left-over files ... OK * checking index information ... OK * checking package subdirectories ... OK * checking R files for non-ASCII characters ... OK * checking R files for syntax errors ... OK * checking whether the package can be loaded ... OK * checking whether the package can be loaded with stated dependencies ... OK * checking whether the package can be unloaded cleanly ... OK * checking whether the namespace can be loaded with stated dependencies ... OK * checking whether the namespace can be unloaded cleanly ... OK * checking loading without being on the library search path ... OK * checking use of S3 registration ... OK * checking dependencies in R code ... OK * checking S3 generic/method consistency ... OK * checking replacement functions ... OK * checking foreign function calls ... OK * checking R code for possible problems ... [12s] OK * checking Rd files ... NOTE checkRd: (-1) DeltaSD_lowerBound_Mpre.Rd:5: Lost braces; missing escapes or markup? 5 | Construct lower bound for M for Delta = Delta^{SD}(M) based on observed pre-period coefficients. | ^ checkRd: (-1) DeltaSD_upperBound_Mpre.Rd:4: Lost braces; missing escapes or markup? 4 | \title{Construct upper bound for M for Delta = Delta^{SD}(M) based on observed pre-period coefficients. | ^ checkRd: (-1) computeConditionalCS_DeltaRM.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{RM}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaRM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RM}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaRM.Rd:35: Lost braces; missing escapes or markup? 35 | Tuning parameter Mbar for Delta^{RM}(Mbar) that governs how different the maximal pre-period violation of parallel trends may be from the post-period differential trend. Default sets Mbar = 0. See Section 2.3.2 of Rambachan & Roth (2021) for more details. | ^ checkRd: (-1) computeConditionalCS_DeltaRM.Rd:41: Lost braces; missing escapes or markup? 41 | Flag for whether user wishes to compute a hybridized confidence set. "ARP" specifies the conditional confidence set "LF" specifies the conditional least-favorable confidence set. The conditional FLCI hybrid confidence set is not available for Delta^{RM}(Mbar) since the FLCI is infinite length for this choice of Delta. See Section 3.3 and Section 5.3 of Rambachan & Roth (2021) for details. Default equals "LF". | ^ checkRd: (-1) computeConditionalCS_DeltaRM.Rd:50: Lost braces; missing escapes or markup? 50 | Logical value. If TRUE, function excludes moments for Delta^{RM}(Mbar) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{RMB}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMB}(Mbar). The set Delta^{RMB}(Mbar) adds an additional sign restriction to Delta^{RM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMB}(Mbar). The set Delta^{RMB}(Mbar) adds an additional sign restriction to Delta^{RM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMB}(Mbar). The set Delta^{RMB}(Mbar) adds an additional sign restriction to Delta^{RM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:37: Lost braces; missing escapes or markup? 37 | Tuning parameter Mbar for Delta^{RM}(Mbar) that governs how different the maximal pre-period violation of parallel trends may be from the post-period differential trend. Default sets Mbar = 0. See Section 2.3.2 of Rambachan & Roth (2021) for more details. | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:43: Lost braces; missing escapes or markup? 43 | Flag for whether user wishes to compute a hybridized confidence set. "ARP" specifies the conditional confidence set "LF" specifies the conditional least-favorable confidence set. The conditional FLCI hybrid confidence set is not available for Delta^{RMB}(Mbar) since the FLCI is infinite length for this choice of Delta. See Section 3.3 and Section 5.3 of Rambachan & Roth (2021) for details. Default equals "LF". | ^ checkRd: (-1) computeConditionalCS_DeltaRMB.Rd:55: Lost braces; missing escapes or markup? 55 | Logical value. If TRUE, function excludes moments for Delta^{RMB}(Mbar) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{RMM}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMM}(Mbar). The set Delta^{RMM}(Mbar) adds an additional shape restriction to Delta^{RM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMM}(Mbar). The set Delta^{RMM}(Mbar) adds an additional shape restriction to Delta^{RM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMM}(Mbar). The set Delta^{RMM}(Mbar) adds an additional shape restriction to Delta^{RM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMM}(Mbar). The set Delta^{RMM}(Mbar) adds an additional shape restriction to Delta^{RM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{RMM}(Mbar). The set Delta^{RMM}(Mbar) adds an additional shape restriction to Delta^{RM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:38: Lost braces; missing escapes or markup? 38 | Tuning parameter Mbar for Delta^{RM}(Mbar) that governs how different the maximal pre-period violation of parallel trends may be from the post-period differential trend. Default sets Mbar = 0. See Section 2.3.2 of Rambachan & Roth (2021) for more details. | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:44: Lost braces; missing escapes or markup? 44 | Flag for whether user wishes to compute a hybridized confidence set. "ARP" specifies the conditional confidence set "LF" specifies the conditional least-favorable confidence set. The conditional FLCI hybrid confidence set is not available for Delta^{RM}(Mbar) since the FLCI is infinite length for this choice of Delta. See Section 3.3 and Section 5.3 of Rambachan & Roth (2021) for details. Default equals "LF". | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:53: Lost braces; missing escapes or markup? 53 | Logical value. If TRUE, function excludes moments for Delta^{RM}(Mbar) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:56: Lost braces; missing escapes or markup? 56 | Specifies direction of monotonicity restriction. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals "increasing." | ^ checkRd: (-1) computeConditionalCS_DeltaRMM.Rd:56: Lost braces; missing escapes or markup? 56 | Specifies direction of monotonicity restriction. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals "increasing." | ^ checkRd: (-1) computeConditionalCS_DeltaSD.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{SD}(M). | ^ checkRd: (-1) computeConditionalCS_DeltaSD.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SD}(M). | ^ checkRd: (-1) computeConditionalCS_DeltaSD.Rd:36: Lost braces; missing escapes or markup? 36 | Tuning parameter for Delta^{SD}(M) that governs the degree of non-linearity allowed in the violation of parallel trends. Default equals 0 | ^ checkRd: (-1) computeConditionalCS_DeltaSD.Rd:51: Lost braces; missing escapes or markup? 51 | Logical value. If TRUE, function excludes moments for Delta^{SD}(M) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaSDB.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{SDB}(M). | ^ checkRd: (-1) computeConditionalCS_DeltaSDB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDB}(M). The set Delta^{SDB}(M) adds an additional sign restriction to Delta^{SD}(M) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaSDB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDB}(M). The set Delta^{SDB}(M) adds an additional sign restriction to Delta^{SD}(M) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaSDB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDB}(M). The set Delta^{SDB}(M) adds an additional sign restriction to Delta^{SD}(M) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaSDB.Rd:36: Lost braces; missing escapes or markup? 36 | Tuning parameter for Delta^{SD}(M) that governs the degree of non-linearity allowed in the violation of parallel trends. Default equals 0 | ^ checkRd: (-1) computeConditionalCS_DeltaSDB.Rd:54: Lost braces; missing escapes or markup? 54 | Logical value. If TRUE, function excludes moments for Delta^{SD}(M) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{SDM}(M). | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDM}(M). The set Delta^{SDB}(M) adds an additional shape restriction to Delta^{SD}(M) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDM}(M). The set Delta^{SDB}(M) adds an additional shape restriction to Delta^{SD}(M) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDM}(M). The set Delta^{SDB}(M) adds an additional shape restriction to Delta^{SD}(M) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDM}(M). The set Delta^{SDB}(M) adds an additional shape restriction to Delta^{SD}(M) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDM}(M). The set Delta^{SDB}(M) adds an additional shape restriction to Delta^{SD}(M) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:36: Lost braces; missing escapes or markup? 36 | Tuning parameter for Delta^{SD}(M) that governs the degree of non-linearity allowed in the violation of parallel trends. Default equals 0 | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:51: Lost braces; missing escapes or markup? 51 | Specifies direction of monotonicity restriction. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals "increasing." | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:51: Lost braces; missing escapes or markup? 51 | Specifies direction of monotonicity restriction. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals "increasing." | ^ checkRd: (-1) computeConditionalCS_DeltaSDM.Rd:54: Lost braces; missing escapes or markup? 54 | Logical value. If TRUE, function excludes moments for Delta^{SD}(M) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{SDRM}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRM}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:35: Lost braces; missing escapes or markup? 35 | Tuning parameter Mbar for Delta^{SDRM}(Mbar) that governs how different the maximal pre-period deviation from a linear trend may be from the maximal deviation from a linear trend in the post-treatment period the post-treatment period. Default sets Mbar = 0. See Section 2.3.2 of Rambachan & Roth (2021) for more details. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:41: Lost braces; missing escapes or markup? 41 | Flag for whether user wishes to compute a hybridized confidence set. "ARP" specifies the conditional confidence set "LF" specifies the conditional least-favorable confidence set. The conditional FLCI hybrid confidence set is not available for Delta^{SDRM}(Mbar) since the FLCI is infinite length for this choice of Delta. See Section 3.3 and Section 5.3 of Rambachan & Roth (2021) for details. Default equals "LF". | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:50: Lost braces; missing escapes or markup? 50 | Logical value. If \code{TRUE}, function excludes moments for Delta^{SDRM}(Mbar) that only include pre-period coefficients. Default equals \code{TRUE}. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:63: Lost braces; missing escapes or markup? 63 | For the choice Delta^{SDRM}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRM.Rd:63: Lost braces; missing escapes or markup? 63 | For the choice Delta^{SDRM}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{SDRMB}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMB}(Mbar). The set Delta^{SDRMB}(Mbar) adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMB}(Mbar). The set Delta^{SDRMB}(Mbar) adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMB}(Mbar). The set Delta^{SDRMB}(Mbar) adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:36: Lost braces; missing escapes or markup? 36 | Tuning parameter Mbar for Delta^{SDRM}(Mbar) that governs how different the maximal pre-period deviation from a linear trend may be from the maximal deviation from a linear trend in the post-treatment period the post-treatment period. Default sets Mbar = 0. See Section 2.3.2 of Rambachan & Roth (2021) for more details. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:42: Lost braces; missing escapes or markup? 42 | Flag for whether user wishes to compute a hybridized confidence set. "ARP" specifies the conditional confidence set "LF" specifies the conditional least-favorable confidence set. The conditional FLCI hybrid confidence set is not available for Delta^{SDRMB}(Mbar) since the FLCI is infinite length for this choice of Delta. See Section 3.3 and Section 5.3 of Rambachan & Roth (2021) for details. Default equals "LF". | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:54: Lost braces; missing escapes or markup? 54 | Logical value. If \code{TRUE}, function excludes moments for Delta^{SDRMB}(Mbar) that only include pre-period coefficients. Default equals \code{TRUE}. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:67: Lost braces; missing escapes or markup? 67 | The choice Delta^{SDRMB} adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). For this choice Delta^{SDRMB}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:67: Lost braces; missing escapes or markup? 67 | The choice Delta^{SDRMB} adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). For this choice Delta^{SDRMB}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:67: Lost braces; missing escapes or markup? 67 | The choice Delta^{SDRMB} adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). For this choice Delta^{SDRMB}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMB.Rd:67: Lost braces; missing escapes or markup? 67 | The choice Delta^{SDRMB} adds an additional sign restriction to Delta^{SDRM}(Mbar) that restricts the sign of the bias to be either positive (delta >= 0) or negative (delta <= 0). For this choice Delta^{SDRMB}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:5: Lost braces; missing escapes or markup? 5 | Computes conditional and hybridized confidence set for Delta = Delta^{SDRMM}(Mbar). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMM}(Mbar). The set Delta^{SDRMM}(Mbar) adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMM}(Mbar). The set Delta^{SDRMM}(Mbar) adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMM}(Mbar). The set Delta^{SDRMM}(Mbar) adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMM}(Mbar). The set Delta^{SDRMM}(Mbar) adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the conditional confidence set and hybridized confidence set for Delta = Delta^{SDRMM}(Mbar). The set Delta^{SDRMM}(Mbar) adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. It may either be increasing (delta_t >= delta_{t-1}) or decreasing (delta_t <= delta_{t-1}). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:37: Lost braces; missing escapes or markup? 37 | Tuning parameter Mbar for Delta^{SDRM}(Mbar) that governs how different the maximal pre-period deviation from a linear trend may be from the maximal deviation from a linear trend in the post-treatment period the post-treatment period. Default sets Mbar = 0. See Section 2.3.2 of Rambachan & Roth (2021) for more details. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:43: Lost braces; missing escapes or markup? 43 | Flag for whether user wishes to compute a hybridized confidence set. "ARP" specifies the conditional confidence set "LF" specifies the conditional least-favorable confidence set. The conditional FLCI hybrid confidence set is not available for Delta^{SDRM}(Mbar) since the FLCI is infinite length for this choice of Delta. See Section 3.3 and Section 5.3 of Rambachan & Roth (2021) for details. Default equals "LF". | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:52: Lost braces; missing escapes or markup? 52 | Logical value. If TRUE, function excludes moments for Delta^{SDRM}(Mbar) that only include pre-period coefficients. Default equals TRUE. | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:55: Lost braces; missing escapes or markup? 55 | Specifies direction of monotonicity restriction. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals "increasing." | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:55: Lost braces; missing escapes or markup? 55 | Specifies direction of monotonicity restriction. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals "increasing." | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:68: Lost braces; missing escapes or markup? 68 | The choice Delta^{SDRMM} adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. For this choice Delta^{SDRMM}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:68: Lost braces; missing escapes or markup? 68 | The choice Delta^{SDRMM} adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. For this choice Delta^{SDRMM}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:68: Lost braces; missing escapes or markup? 68 | The choice Delta^{SDRMM} adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. For this choice Delta^{SDRMM}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) computeConditionalCS_DeltaSDRMM.Rd:68: Lost braces; missing escapes or markup? 68 | The choice Delta^{SDRMM} adds an additional shape restriction to Delta^{SDRM}(Mbar) that restricts the underlying trend to be monotone. For this choice Delta^{SDRMM}, \code{numPrePeriods} must be greater than one. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., \code{numPrePeriods} > 1). | ^ checkRd: (-1) createSensitivityPlot.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs sensitivity plot for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) | ^ checkRd: (-1) createSensitivityPlot.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs sensitivity plot for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) | ^ checkRd: (-1) createSensitivityPlot.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs sensitivity plot for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) | ^ checkRd: (-1) createSensitivityPlot.Rd:8: Lost braces; missing escapes or markup? 8 | This function constructs sensitivity plots that examine how the robust confidence sets change as the parameter M varies for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M). Similar plots are constructed in Section 6 of Rambachan & Roth (2021). | ^ checkRd: (-1) createSensitivityPlot.Rd:8: Lost braces; missing escapes or markup? 8 | This function constructs sensitivity plots that examine how the robust confidence sets change as the parameter M varies for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M). Similar plots are constructed in Section 6 of Rambachan & Roth (2021). | ^ checkRd: (-1) createSensitivityPlot.Rd:8: Lost braces; missing escapes or markup? 8 | This function constructs sensitivity plots that examine how the robust confidence sets change as the parameter M varies for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M). Similar plots are constructed in Section 6 of Rambachan & Roth (2021). | ^ checkRd: (-1) createSensitivityPlot_relativeMagnitudes.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs sensitivity plot for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate additional shape or sign restrictions. | ^ checkRd: (-1) createSensitivityPlot_relativeMagnitudes.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs sensitivity plot for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate additional shape or sign restrictions. | ^ checkRd: (-1) createSensitivityPlot_relativeMagnitudes.Rd:8: Lost braces; missing escapes or markup? 8 | This function constructs sensitivity plots that examine how the robust confidence sets change as the parameter Mbar varies for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate additional shape or sign restrictions. Similar plots are constructed in Section 6 of Rambachan & Roth (2021). | ^ checkRd: (-1) createSensitivityPlot_relativeMagnitudes.Rd:8: Lost braces; missing escapes or markup? 8 | This function constructs sensitivity plots that examine how the robust confidence sets change as the parameter Mbar varies for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate additional shape or sign restrictions. Similar plots are constructed in Section 6 of Rambachan & Roth (2021). | ^ checkRd: (-1) createSensitivityResults.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs robust confidence intervals for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. | ^ checkRd: (-1) createSensitivityResults.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs robust confidence intervals for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. | ^ checkRd: (-1) createSensitivityResults.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs robust confidence intervals for Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. | ^ checkRd: (-1) createSensitivityResults.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for a choice Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. By default, the function constructs robust confidence intervals for Delta^{SD}(M). | ^ checkRd: (-1) createSensitivityResults.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for a choice Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. By default, the function constructs robust confidence intervals for Delta^{SD}(M). | ^ checkRd: (-1) createSensitivityResults.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for a choice Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. By default, the function constructs robust confidence intervals for Delta^{SD}(M). | ^ checkRd: (-1) createSensitivityResults.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for a choice Delta = Delta^{SD}(M), Delta^{SDB}(M) and Delta^{SDM}(M) for vector of possible M values. By default, the function constructs robust confidence intervals for Delta^{SD}(M). | ^ checkRd: (-1) createSensitivityResults.Rd:41: Lost braces; missing escapes or markup? 41 | This must be specified if the user wishes to add an additional bias restriction to Delta^{SD}(M). If "positive", bias is restricted to be positive, delta >= 0. If "negative", bias is restricted to be negative, delta <= 0. Default equals NULL. | ^ checkRd: (-1) createSensitivityResults.Rd:44: Lost braces; missing escapes or markup? 44 | This must be specified if the user wishes to add an additional monotonicity restriction to Delta^{SD}(M). If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals NULL | ^ checkRd: (-1) createSensitivityResults.Rd:44: Lost braces; missing escapes or markup? 44 | This must be specified if the user wishes to add an additional monotonicity restriction to Delta^{SD}(M). If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals NULL | ^ checkRd: (-1) createSensitivityResults.Rd:44: Lost braces; missing escapes or markup? 44 | This must be specified if the user wishes to add an additional monotonicity restriction to Delta^{SD}(M). If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals NULL | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs robust confidence intervals for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate shape or sign restrictions for a vector of possible Mbar values. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs robust confidence intervals for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate shape or sign restrictions for a vector of possible Mbar values. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate shape or sign restrictions for a vector of possible Mbar values. By default, the function constructs sensitivity results for Delta^{RM}(Mbar) and its variants. The confidence sets are constructed through test inversion. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate shape or sign restrictions for a vector of possible Mbar values. By default, the function constructs sensitivity results for Delta^{RM}(Mbar) and its variants. The confidence sets are constructed through test inversion. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:8: Lost braces; missing escapes or markup? 8 | Constructs robust confidence intervals for Delta = Delta^{RM}(Mbar), Delta^{SDRM}(Mbar) and their variants that incorporate shape or sign restrictions for a vector of possible Mbar values. By default, the function constructs sensitivity results for Delta^{RM}(Mbar) and its variants. The confidence sets are constructed through test inversion. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:35: Lost braces; missing escapes or markup? 35 | Number of pre-periods. If user selects bound = "deviation from linear trends" (Delta^{SDRM} as base choice of Delta), then numPrePeriods must be greater than one. See details for further explanation. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:41: Lost braces; missing escapes or markup? 41 | String that specifies the base choice of Delta (to which additional sign and shape restrictions will be incorporated if specified by the user). This must be either "deviation from parallel trends" or "deviation from linear trend". If bound equals "deviation from parallel trends", then the function will select Delta^{RM}(Mbar) as the base choice of Delta. If bound equals "deviation from linear trends", then the function will select Delta^{SDRM} as the base choice of Delta. By default, this is set to "deviation from parallel trends". See Section 2.3.1 and 2.3.2 of Rambachan & Roth (2021) for a discussion of these choices of Delta. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:41: Lost braces; missing escapes or markup? 41 | String that specifies the base choice of Delta (to which additional sign and shape restrictions will be incorporated if specified by the user). This must be either "deviation from parallel trends" or "deviation from linear trend". If bound equals "deviation from parallel trends", then the function will select Delta^{RM}(Mbar) as the base choice of Delta. If bound equals "deviation from linear trends", then the function will select Delta^{SDRM} as the base choice of Delta. By default, this is set to "deviation from parallel trends". See Section 2.3.1 and 2.3.2 of Rambachan & Roth (2021) for a discussion of these choices of Delta. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:56: Lost braces; missing escapes or markup? 56 | This must be specified if the user wishes to add an additional monotonicity restriction to base choice of Delta. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals NULL. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:56: Lost braces; missing escapes or markup? 56 | This must be specified if the user wishes to add an additional monotonicity restriction to base choice of Delta. If "increasing", underlying trend specified to be increasing, delta_t >= delta_{t-1}. If "decreasing", underlying trend specified to be decreasing delta_t <= delta_{t-1}. Default equals NULL. | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:75: Lost braces; missing escapes or markup? 75 | Note: If the user specifies bound = "deviation from linear trends", then numPrePeriods must be greater than one. By specifying bound = "deviation from linear trends", then the function selects Delta^{SDRM} as the base choice of Delta. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., numPrePeriods > 1). | ^ checkRd: (-1) createSensitivityResults_relativeMagnitudes.Rd:75: Lost braces; missing escapes or markup? 75 | Note: If the user specifies bound = "deviation from linear trends", then numPrePeriods must be greater than one. By specifying bound = "deviation from linear trends", then the function selects Delta^{SDRM} as the base choice of Delta. As discussed in Section 2.3.2 of Rambachan & Roth (2021), Delta^{SDRM} uses observed non-linearities in the pre-treatment difference in trends to bound the possible non-linearities in the post-treatment difference in trends. This is only possible if there are multiple pre-treatment periods (i.e., numPrePeriods > 1). | ^ checkRd: (-1) findOptimalFLCI.Rd:5: Lost braces; missing escapes or markup? 5 | Constructs optimal fixed length confidence interval for Delta = Delta^{SD}(M). | ^ checkRd: (-1) findOptimalFLCI.Rd:8: Lost braces; missing escapes or markup? 8 | Computes the optimal FLCI for the scalar parameter of interest under Delta = Delta^{SD}(M). | ^ checkRd: (-1) findOptimalFLCI.Rd:34: Lost braces; missing escapes or markup? 34 | Tuning parameter for Delta^{SD}(M) that governs the degree of non-linearity allowed in the violation of parallel trends. Default equals 0 | ^ * checking Rd metadata ... OK * checking Rd line widths ... OK * checking Rd cross-references ... OK * checking for missing documentation entries ... OK * checking for code/documentation mismatches ... OK * checking Rd \usage sections ... OK * checking Rd contents ... OK * checking for unstated dependencies in examples ... OK * checking contents of 'data' directory ... OK * checking data for non-ASCII characters ... OK * checking LazyData ... OK * checking data for ASCII and uncompressed saves ... OK * checking sizes of PDF files under 'inst/doc' ... OK * checking installed files from 'inst/doc' ... OK * checking files in 'vignettes' ... OK * checking examples ... NONE * checking for unstated dependencies in vignettes ... OK * checking package vignettes ... OK * checking re-building of vignette outputs ... [505s] OK * checking PDF version of manual ... [15s] OK * checking HTML version of manual ... OK * DONE Status: 2 NOTEs