• using R version 4.4.0 alpha (2024-03-31 r86238)
  • using platform: aarch64-apple-darwin20
  • R was compiled by     Apple clang version 14.0.0 (clang-1400.0.29.202)     GNU Fortran (GCC) 12.2.0
  • running under: macOS Ventura 13.4
  • using session charset: UTF-8
  • checking for file ‘weightQuant/DESCRIPTION’ ... OK
  • checking extension type ... Package
  • this is package ‘weightQuant’ version ‘1.0.1’
  • 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 executable files ... OK
  • checking for hidden files and directories ... OK
  • checking for portable file names ... OK
  • checking for sufficient/correct file permissions ... OK
  • checking whether package ‘weightQuant’ can be installed ... [4s/4s] OK See the install log for details.
  • checking installed package size ... OK
  • checking package 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 code files for non-ASCII characters ... OK
  • checking R files for syntax errors ... OK
  • checking whether the package can be loaded ... [1s/1s] OK
  • checking whether the package can be loaded with stated dependencies ... [1s/1s] OK
  • checking whether the package can be unloaded cleanly ... [1s/1s] OK
  • checking whether the namespace can be loaded with stated dependencies ... [1s/1s] OK
  • checking whether the namespace can be unloaded cleanly ... [1s/1s] OK
  • checking loading without being on the library search path ... [1s/1s] 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 ... [3s/3s] OK
  • checking Rd files ... [0s/0s] NOTE checkRd: (-1) test.bootwrq.Rd:23: Lost braces; missing escapes or markup?     23 | For 2 quantiles tau1 and tau2, the test of the null hypothesis H0 : b_{tau1} =        | ^ checkRd: (-1) test.bootwrq.Rd:24: Lost braces; missing escapes or markup?     24 | b_{tau2} is obtained with the following procedure        | ^ checkRd: (-1) test.bootwrq.Rd:26: Lost braces; missing escapes or markup?     26 | 1. estimate the difference diff = b_{tau1} - b_{tau2} on the initial sample        | ^ checkRd: (-1) test.bootwrq.Rd:26: Lost braces; missing escapes or markup?     26 | 1. estimate the difference diff = b_{tau1} - b_{tau2} on the initial sample        | ^ checkRd: (-1) test.bootwrq.Rd:28: Lost braces; missing escapes or markup?     28 | 2. estimate the difference diff_b = b_{tau1}^b - b_{tau2}^b on each of the B        | ^ checkRd: (-1) test.bootwrq.Rd:28: Lost braces; missing escapes or markup?     28 | 2. estimate the difference diff_b = b_{tau1}^b - b_{tau2}^b on each of the B        | ^ checkRd: (-1) weightsIMD.Rd:53: Lost braces; missing escapes or markup?     53 | Denoting T_i the death time, R_{ij} the observation indicator for        | ^ checkRd: (-1) weightsIMD.Rd:58: Lost braces; missing escapes or markup?     58 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsIMD.Rd:58: Lost braces; missing escapes or markup?     58 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsIMD.Rd:58: Lost braces; missing escapes or markup?     58 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsIMD.Rd:58: Lost braces; missing escapes or markup?     58 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsIMD.Rd:58: Lost braces; missing escapes or markup?     58 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsIMD.Rd:58: Lost braces; missing escapes or markup?     58 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsIMD.Rd:59: Lost braces; missing escapes or markup?     59 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:59: Lost braces; missing escapes or markup?     59 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:59: Lost braces; missing escapes or markup?     59 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:59: Lost braces; missing escapes or markup?     59 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:66: Lost braces; missing escapes or markup?     66 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsIMD.Rd:66: Lost braces; missing escapes or markup?     66 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsIMD.Rd:66: Lost braces; missing escapes or markup?     66 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsIMD.Rd:66: Lost braces; missing escapes or markup?     66 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsIMD.Rd:66: Lost braces; missing escapes or markup?     66 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsIMD.Rd:68: Lost braces; missing escapes or markup?     68 | P(R_{ij} = 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 0) *        | ^ checkRd: (-1) weightsIMD.Rd:68: Lost braces; missing escapes or markup?     68 | P(R_{ij} = 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 0) *        | ^ checkRd: (-1) weightsIMD.Rd:68: Lost braces; missing escapes or markup?     68 | P(R_{ij} = 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 0) *        | ^ checkRd: (-1) weightsIMD.Rd:68: Lost braces; missing escapes or markup?     68 | P(R_{ij} = 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 0) *        | ^ checkRd: (-1) weightsIMD.Rd:68: Lost braces; missing escapes or markup?     68 | P(R_{ij} = 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 0) *        | ^ checkRd: (-1) weightsIMD.Rd:68: Lost braces; missing escapes or markup?     68 | P(R_{ij} = 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 0) *        | ^ checkRd: (-1) weightsIMD.Rd:69: Lost braces; missing escapes or markup?     69 | P(R_{ij-1} = 0 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) + P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:69: Lost braces; missing escapes or markup?     69 | P(R_{ij-1} = 0 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) + P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:69: Lost braces; missing escapes or markup?     69 | P(R_{ij-1} = 0 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) + P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:69: Lost braces; missing escapes or markup?     69 | P(R_{ij-1} = 0 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) + P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:69: Lost braces; missing escapes or markup?     69 | P(R_{ij-1} = 0 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) + P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:69: Lost braces; missing escapes or markup?     69 | P(R_{ij-1} = 0 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) + P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:70: Lost braces; missing escapes or markup?     70 | 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 1) *        | ^ checkRd: (-1) weightsIMD.Rd:70: Lost braces; missing escapes or markup?     70 | 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 1) *        | ^ checkRd: (-1) weightsIMD.Rd:70: Lost braces; missing escapes or markup?     70 | 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 1) *        | ^ checkRd: (-1) weightsIMD.Rd:70: Lost braces; missing escapes or markup?     70 | 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 1) *        | ^ checkRd: (-1) weightsIMD.Rd:70: Lost braces; missing escapes or markup?     70 | 1 | T_i > t_{ij-1}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1} = 1) *        | ^ checkRd: (-1) weightsIMD.Rd:71: Lost braces; missing escapes or markup?     71 | P(R_{ij-1} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:71: Lost braces; missing escapes or markup?     71 | P(R_{ij-1} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:71: Lost braces; missing escapes or markup?     71 | P(R_{ij-1} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:71: Lost braces; missing escapes or markup?     71 | P(R_{ij-1} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:71: Lost braces; missing escapes or markup?     71 | P(R_{ij-1} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:73: Lost braces; missing escapes or markup?     73 | Under the MAR assumption, the conditional probabilities lambda_{ij} = P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:73: Lost braces; missing escapes or markup?     73 | Under the MAR assumption, the conditional probabilities lambda_{ij} = P(R_{ij} =        | ^ checkRd: (-1) weightsIMD.Rd:74: Lost braces; missing escapes or markup?     74 | 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1}) are obtained        | ^ checkRd: (-1) weightsIMD.Rd:74: Lost braces; missing escapes or markup?     74 | 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1}) are obtained        | ^ checkRd: (-1) weightsIMD.Rd:74: Lost braces; missing escapes or markup?     74 | 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1}) are obtained        | ^ checkRd: (-1) weightsIMD.Rd:74: Lost braces; missing escapes or markup?     74 | 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1}) are obtained        | ^ checkRd: (-1) weightsIMD.Rd:74: Lost braces; missing escapes or markup?     74 | 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}, R_{ij-1}) are obtained        | ^ checkRd: (-1) weightsIMD.Rd:77: Lost braces; missing escapes or markup?     77 | logit(lambda_{ij}) = b_{0j} + b_1 X1_{ij} + b_2 X2_{ij} + b_3 Y_{i(j-1)} + b_4        | ^ checkRd: (-1) weightsIMD.Rd:77: Lost braces; missing escapes or markup?     77 | logit(lambda_{ij}) = b_{0j} + b_1 X1_{ij} + b_2 X2_{ij} + b_3 Y_{i(j-1)} + b_4        | ^ checkRd: (-1) weightsIMD.Rd:77: Lost braces; missing escapes or markup?     77 | logit(lambda_{ij}) = b_{0j} + b_1 X1_{ij} + b_2 X2_{ij} + b_3 Y_{i(j-1)} + b_4        | ^ checkRd: (-1) weightsIMD.Rd:77: Lost braces; missing escapes or markup?     77 | logit(lambda_{ij}) = b_{0j} + b_1 X1_{ij} + b_2 X2_{ij} + b_3 Y_{i(j-1)} + b_4        | ^ checkRd: (-1) weightsIMD.Rd:77: Lost braces; missing escapes or markup?     77 | logit(lambda_{ij}) = b_{0j} + b_1 X1_{ij} + b_2 X2_{ij} + b_3 Y_{i(j-1)} + b_4        | ^ checkRd: (-1) weightsIMD.Rd:78: Lost braces; missing escapes or markup?     78 | X1_{ij} Y_{i(j-1)} + b_5 (1-R_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:78: Lost braces; missing escapes or markup?     78 | X1_{ij} Y_{i(j-1)} + b_5 (1-R_{ij-1})        | ^ checkRd: (-1) weightsIMD.Rd:78: Lost braces; missing escapes or markup?     78 | X1_{ij} Y_{i(j-1)} + b_5 (1-R_{ij-1})        | ^ checkRd: (-1) weightsMMD.Rd:69: Lost braces; missing escapes or markup?     69 | Denoting T_i the death time, R_{ij} the observation indicator for        | ^ checkRd: (-1) weightsMMD.Rd:73: Lost braces; missing escapes or markup?     73 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsMMD.Rd:73: Lost braces; missing escapes or markup?     73 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsMMD.Rd:73: Lost braces; missing escapes or markup?     73 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsMMD.Rd:73: Lost braces; missing escapes or markup?     73 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsMMD.Rd:73: Lost braces; missing escapes or markup?     73 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsMMD.Rd:73: Lost braces; missing escapes or markup?     73 | w_{ij} = P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}) / P(R_{ij} = 1 | T_i >        | ^ checkRd: (-1) weightsMMD.Rd:74: Lost braces; missing escapes or markup?     74 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsMMD.Rd:74: Lost braces; missing escapes or markup?     74 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsMMD.Rd:74: Lost braces; missing escapes or markup?     74 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsMMD.Rd:74: Lost braces; missing escapes or markup?     74 | t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1})        | ^ checkRd: (-1) weightsMMD.Rd:81: Lost braces; missing escapes or markup?     81 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:81: Lost braces; missing escapes or markup?     81 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:81: Lost braces; missing escapes or markup?     81 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:81: Lost braces; missing escapes or markup?     81 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:81: Lost braces; missing escapes or markup?     81 | P(R_{ij} = 1 | T_i > t_{ij}, X1_{ij}, X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:83: Lost braces; missing escapes or markup?     83 | prod_{k=2}^j P(R_{ik} = 1 | R_{ik-1} = 1, T_i > t_{ij}, X1_{ij},        | ^ checkRd: (-1) weightsMMD.Rd:83: Lost braces; missing escapes or markup?     83 | prod_{k=2}^j P(R_{ik} = 1 | R_{ik-1} = 1, T_i > t_{ij}, X1_{ij},        | ^ checkRd: (-1) weightsMMD.Rd:83: Lost braces; missing escapes or markup?     83 | prod_{k=2}^j P(R_{ik} = 1 | R_{ik-1} = 1, T_i > t_{ij}, X1_{ij},        | ^ checkRd: (-1) weightsMMD.Rd:83: Lost braces; missing escapes or markup?     83 | prod_{k=2}^j P(R_{ik} = 1 | R_{ik-1} = 1, T_i > t_{ij}, X1_{ij},        | ^ checkRd: (-1) weightsMMD.Rd:83: Lost braces; missing escapes or markup?     83 | prod_{k=2}^j P(R_{ik} = 1 | R_{ik-1} = 1, T_i > t_{ij}, X1_{ij},        | ^ checkRd: (-1) weightsMMD.Rd:84: Lost braces; missing escapes or markup?     84 | X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:84: Lost braces; missing escapes or markup?     84 | X2_{ij}, Y_{ij-1}) =        | ^ checkRd: (-1) weightsMMD.Rd:86: Lost braces; missing escapes or markup?     86 | prod_{k=2}^j lambda_{ijk}        | ^ checkRd: (-1) weightsMMD.Rd:86: Lost braces; missing escapes or markup?     86 | prod_{k=2}^j lambda_{ijk}        | ^ checkRd: (-1) weightsMMD.Rd:88: Lost braces; missing escapes or markup?     88 | The probability lambda_{ijk} are obtained by logistic regressions.        | ^ checkRd: (-1) weightsMMD.Rd:93: Lost braces; missing escapes or markup?     93 | logit(lambda_{ijk}) = b_{0k(j-k)} + b_{1(j-k)} X1_{ik} + b_{2(j-k)}        | ^ checkRd: (-1) weightsMMD.Rd:93: Lost braces; missing escapes or markup?     93 | logit(lambda_{ijk}) = b_{0k(j-k)} + b_{1(j-k)} X1_{ik} + b_{2(j-k)}        | ^ checkRd: (-1) weightsMMD.Rd:93: Lost braces; missing escapes or markup?     93 | logit(lambda_{ijk}) = b_{0k(j-k)} + b_{1(j-k)} X1_{ik} + b_{2(j-k)}        | ^ checkRd: (-1) weightsMMD.Rd:93: Lost braces; missing escapes or markup?     93 | logit(lambda_{ijk}) = b_{0k(j-k)} + b_{1(j-k)} X1_{ik} + b_{2(j-k)}        | ^ checkRd: (-1) weightsMMD.Rd:93: Lost braces; missing escapes or markup?     93 | logit(lambda_{ijk}) = b_{0k(j-k)} + b_{1(j-k)} X1_{ik} + b_{2(j-k)}        | ^ checkRd: (-1) weightsMMD.Rd:94: Lost braces; missing escapes or markup?     94 | Y_{i(k-1)} + b_{3(j-k)} X1_{ik} Y_{i(k-1)} + b_{4(j-k)} X2_{ik}        | ^ checkRd: (-1) weightsMMD.Rd:94: Lost braces; missing escapes or markup?     94 | Y_{i(k-1)} + b_{3(j-k)} X1_{ik} Y_{i(k-1)} + b_{4(j-k)} X2_{ik}        | ^ checkRd: (-1) weightsMMD.Rd:94: Lost braces; missing escapes or markup?     94 | Y_{i(k-1)} + b_{3(j-k)} X1_{ik} Y_{i(k-1)} + b_{4(j-k)} X2_{ik}        | ^ checkRd: (-1) weightsMMD.Rd:94: Lost braces; missing escapes or markup?     94 | Y_{i(k-1)} + b_{3(j-k)} X1_{ik} Y_{i(k-1)} + b_{4(j-k)} X2_{ik}        | ^ checkRd: (-1) weightsMMD.Rd:94: Lost braces; missing escapes or markup?     94 | Y_{i(k-1)} + b_{3(j-k)} X1_{ik} Y_{i(k-1)} + b_{4(j-k)} X2_{ik}        | ^ checkRd: (-1) weightsMMD.Rd:94: Lost braces; missing escapes or markup?     94 | Y_{i(k-1)} + b_{3(j-k)} X1_{ik} Y_{i(k-1)} + b_{4(j-k)} X2_{ik}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^ checkRd: (-1) weightsMMD.Rd:101: Lost braces; missing escapes or markup?    101 | logit(lambda_{ikk}) = b_{0k} + b_1 X1_{ik} + b_2 X2_{ik} + b_3 Y_{i(k-1)} + b_4 X1_{ik} Y_{i(k-1)}        | ^
  • checking Rd metadata ... 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 ... [0s/0s] OK
  • checking LazyData ... OK
  • checking data for ASCII and uncompressed saves ... OK
  • checking examples ... [1s/1s] OK
  • checking PDF version of manual ... [4s/4s] OK
  • DONE Status: 1 NOTE
  • using check arguments '--no-clean-on-error '