From 799de89c2d575ac8180d1aaae6af5cc343bd3d4a Mon Sep 17 00:00:00 2001 From: JUMA Date: Thu, 21 Mar 2024 12:20:43 +0300 Subject: [PATCH] caps --- instat/ucrCalculator.vb | 104 ++++++++++++++++++++-------------------- 1 file changed, 52 insertions(+), 52 deletions(-) diff --git a/instat/ucrCalculator.vb b/instat/ucrCalculator.vb index 65a4216ccc3..ff43b949970 100644 --- a/instat/ucrCalculator.vb +++ b/instat/ucrCalculator.vb @@ -73,35 +73,35 @@ Public Class ucrCalculator ttCalculator.SetToolTip(cmdRound, "round(x) to round to whole numbers, round(x,2) to round to 2 decimal places, round(x,-2) to round to the nearest 100") ttCalculator.SetToolTip(cmdSiginf, "signif(x,3) to round to 3 significant figures") - ttCalculator.SetToolTip(cmdSortF, "sorts a vector into ascending or descending order. For example sort(c(5,7,4,4,3)) = (3,4,4,5,7)") - ttCalculator.SetToolTip(cmdScale, "centre and scale the data - usually by producing (x - xbar)/s") - ttCalculator.SetToolTip(cmdMASSFractions, "changes decimal data into a character variable with fractions. So 1.5 becomes 3/2, 0.25 becomes 1/4 etc.") - ttCalculator.SetToolTip(cmdDecimals, "the inverse of the fractions key. So 3/2 becomes 1.5, 1/4 becomes 0.25 etc.") - ttCalculator.SetToolTip(cmdLag, "shift a variable down. For example lag(1:5) = (NA,1,2,3,4); lag(1:5,3) = (NA,NA,NA, 1,2)") - ttCalculator.SetToolTip(cmdLead, "shift a variable up. For example lead(1:5) = (2,3,4,5,NA); lead(1:5;3) = (4,5, NA,NA,NA)") - ttCalculator.SetToolTip(cmdDiff, "difference between successive elements. For example diff(c(1,4,3,7)) = (NA 3,-1,4)") - ttCalculator.SetToolTip(cmdRev, "reverse a variable. For example rev(c(1,2,3,4,5)) =(5,4,3,2,1)") - ttCalculator.SetToolTip(cmdPMax, " maximum of a set of variables. For examples pmax(c(1,3,5),c(6,4,2)) = (6,4,5)") - ttCalculator.SetToolTip(cmdPMin, "minimum of a set of variables. For examples pmin(c(1,3,5),c(6,4,2)) = (1,3,2)") - ttCalculator.SetToolTip(cmdCumMax, "cumulative maxima. For example cummax(c(3,2,1,4,0)) = (3,3,3,4,4)") - ttCalculator.SetToolTip(cmdMovMax, "moving (or rolling) maxima. For example rollmax(x=c(3,2,1,4,0) ,3,fill=NA, align=""right"") = (NA,NA, 3,4,4)") - ttCalculator.SetToolTip(cmdCumSum, "cumulative sums. For example cumsum(c(3,2,1,4,0)) = (3,5,6,10,10)") - ttCalculator.SetToolTip(cmdCumProd, "cumulative products. For example cumprod(c(2,3,5,7)) = (2,6,30,210)") - ttCalculator.SetToolTip(cmdMovProd, "moving products Fror example rollapply(c(2,3,5,7,11),width=3,fill=NA, FUN=prod) = (NA,30,105,385,NA)") - ttCalculator.SetToolTip(cmdCumMean, "cumulative means. For example cummean(c(3,2,1,4,0)) = (3,2.5,2,2.5,2)") - ttCalculator.SetToolTip(cmdCumMin, "cumulative minima. For example cummin(c(3,2,1,4,0)) = (3,2.,1,1,0)") - ttCalculator.SetToolTip(cmdMovSum, "moving (or rolling) totals. For example rollsum(c(3,2,1,4,0) ,3,fill=NA, align=""left"") = (6,7,5,NA,NA)") - ttCalculator.SetToolTip(cmdMovMean, "moving (or rolling) mean. For example rollmean(c(3,2,1,6,2) ,3,fill=NA) = (NA,2,3,3,NA)") - ttCalculator.SetToolTip(cmMovMed, "moving (or rolling) medians. For example rollmedian(c(3,2,1,6,2) ,3,fill=NA) = (NA,2,2,2,NA)") - ttCalculator.SetToolTip(cmdMovmin, "moving (or rolling) minima. For example rollapply(c(3,2,1,6,2),width=3,fill=NA, FUN=min) = (NA,1,1,1,NA)") - ttCalculator.SetToolTip(cmdNtile, " use ranks to divide into (almost) equal sized groups. For example ntile(c(15,11,13,12,NA,12),2) = (2,1,2,1,NA,1)") - ttCalculator.SetToolTip(cmdCumdist, "proportion of values less than or equal to the current rank. For example cume_dist(c(2,4,6,8,3)) = (0.2, 0.6, 0.8, 1.0, 0.4)") - ttCalculator.SetToolTip(cmdRowRank, "row numbers as ranks. For example :row_number(c(15,11,13,12,NA,12)) = (5,1,3,2,NA,3)") - ttCalculator.SetToolTip(cmdPercentRank, "rescale of minimum ranks to [0,1]. For example percent_rank(c(15,11,13,12,NA,12)) = (1,0,0.75,0.25,NA,0.25)") - ttCalculator.SetToolTip(cmdDRank, "dense ranks. For example d_rank(c(15,11,13,12,NA,12)) = (4,1,3,2,NA,2)") - ttCalculator.SetToolTip(cmdMRank, " minimum ranks. For example m_rank(c(15,11,13,12,NA,12)) = (5,1,4,2,NA,2)") - ttCalculator.SetToolTip(cmdNafill, "fills missing values at the start, middle and end. For example na.fill(c(NA,2,NA,4,5,NA),fill=""extend"") = (2,2,3,4,5,5); while fill=c(15,""extend"",NA) = (15,2,3,4,5,NA)") - ttCalculator.SetToolTip(cmdNaapprox, "linear interpolation of missing values. For example na.approx(c(5,NA,NA,2,2,NA,4,7,NA),maxgap=1,na.rm=FALSE) = (5,NA,NA,2,2,3,4,7,NA)") + ttCalculator.SetToolTip(cmdSortF, "Sorts a vector into ascending or descending order. For example sort(c(5,7,4,4,3)) = (3,4,4,5,7)") + ttCalculator.SetToolTip(cmdScale, "Centre and scale the data - usually by producing (x - xbar)/s") + ttCalculator.SetToolTip(cmdMASSFractions, "Changes decimal data into a character variable with fractions. So 1.5 becomes 3/2, 0.25 becomes 1/4 etc.") + ttCalculator.SetToolTip(cmdDecimals, "The inverse of the fractions key. So 3/2 becomes 1.5, 1/4 becomes 0.25 etc.") + ttCalculator.SetToolTip(cmdLag, "Shift a variable down. For example lag(1:5) = (NA,1,2,3,4); lag(1:5,3) = (NA,NA,NA, 1,2)") + ttCalculator.SetToolTip(cmdLead, "Shift a variable up. For example lead(1:5) = (2,3,4,5,NA); lead(1:5;3) = (4,5, NA,NA,NA)") + ttCalculator.SetToolTip(cmdDiff, "Difference between successive elements. For example diff(c(1,4,3,7)) = (NA 3,-1,4)") + ttCalculator.SetToolTip(cmdRev, "Reverse a variable. For example rev(c(1,2,3,4,5)) =(5,4,3,2,1)") + ttCalculator.SetToolTip(cmdPMax, " Maximum of a set of variables. For examples pmax(c(1,3,5),c(6,4,2)) = (6,4,5)") + ttCalculator.SetToolTip(cmdPMin, "Minimum of a set of variables. For examples pmin(c(1,3,5),c(6,4,2)) = (1,3,2)") + ttCalculator.SetToolTip(cmdCumMax, "Cumulative maxima. For example cummax(c(3,2,1,4,0)) = (3,3,3,4,4)") + ttCalculator.SetToolTip(cmdMovMax, "Moving (or rolling) maxima. For example rollmax(x=c(3,2,1,4,0) ,3,fill=NA, align=""right"") = (NA,NA, 3,4,4)") + ttCalculator.SetToolTip(cmdCumSum, "Cumulative sums. For example cumsum(c(3,2,1,4,0)) = (3,5,6,10,10)") + ttCalculator.SetToolTip(cmdCumProd, "Cumulative products. For example cumprod(c(2,3,5,7)) = (2,6,30,210)") + ttCalculator.SetToolTip(cmdMovProd, "Moving products Fror example rollapply(c(2,3,5,7,11),width=3,fill=NA, FUN=prod) = (NA,30,105,385,NA)") + ttCalculator.SetToolTip(cmdCumMean, "Cumulative means. For example cummean(c(3,2,1,4,0)) = (3,2.5,2,2.5,2)") + ttCalculator.SetToolTip(cmdCumMin, "Cumulative minima. For example cummin(c(3,2,1,4,0)) = (3,2.,1,1,0)") + ttCalculator.SetToolTip(cmdMovSum, "Moving (or rolling) totals. For example rollsum(c(3,2,1,4,0) ,3,fill=NA, align=""left"") = (6,7,5,NA,NA)") + ttCalculator.SetToolTip(cmdMovMean, "Moving (or rolling) mean. For example rollmean(c(3,2,1,6,2) ,3,fill=NA) = (NA,2,3,3,NA)") + ttCalculator.SetToolTip(cmMovMed, "Moving (or rolling) medians. For example rollmedian(c(3,2,1,6,2) ,3,fill=NA) = (NA,2,2,2,NA)") + ttCalculator.SetToolTip(cmdMovmin, "Moving (or rolling) minima. For example rollapply(c(3,2,1,6,2),width=3,fill=NA, FUN=min) = (NA,1,1,1,NA)") + ttCalculator.SetToolTip(cmdNtile, " Use ranks to divide into (almost) equal sized groups. For example ntile(c(15,11,13,12,NA,12),2) = (2,1,2,1,NA,1)") + ttCalculator.SetToolTip(cmdCumdist, "Proportion of values less than or equal to the current rank. For example cume_dist(c(2,4,6,8,3)) = (0.2, 0.6, 0.8, 1.0, 0.4)") + ttCalculator.SetToolTip(cmdRowRank, "Row numbers as ranks. For example :row_number(c(15,11,13,12,NA,12)) = (5,1,3,2,NA,3)") + ttCalculator.SetToolTip(cmdPercentRank, "Rescale of minimum ranks to [0,1]. For example percent_rank(c(15,11,13,12,NA,12)) = (1,0,0.75,0.25,NA,0.25)") + ttCalculator.SetToolTip(cmdDRank, "Dense ranks. For example d_rank(c(15,11,13,12,NA,12)) = (4,1,3,2,NA,2)") + ttCalculator.SetToolTip(cmdMRank, " Minimum ranks. For example m_rank(c(15,11,13,12,NA,12)) = (5,1,4,2,NA,2)") + ttCalculator.SetToolTip(cmdNafill, "Fills missing values at the start, middle and end. For example na.fill(c(NA,2,NA,4,5,NA),fill=""extend"") = (2,2,3,4,5,5); while fill=c(15,""extend"",NA) = (15,2,3,4,5,NA)") + ttCalculator.SetToolTip(cmdNaapprox, "Linear interpolation of missing values. For example na.approx(c(5,NA,NA,2,2,NA,4,7,NA),maxgap=1,na.rm=FALSE) = (5,NA,NA,2,2,3,4,7,NA)") ttCalculator.SetToolTip(cmdNasplin, "Spline interpolation of missing values. For example na.spline(c(NA,NA,NA,2,2,NA,4,7,NA),maxgap=2,na.rm=FALSE) = (NA,NA,NA,2,2,2.5,4,7,12)") ttCalculator.SetToolTip(cmdNaest, "Missing values as the mean (usually) overall or with a factor. For example na.aggregate(c(NA,NA,NA,2,2,NA,4,7,NA),maxgap=2,na.rm=FALSE) = (NA,NA,NA,2,2,3.75,4,7,3.75)") @@ -135,14 +135,14 @@ Public Class ucrCalculator ttCalculator.SetToolTip(cmdPf, "F probabilities. For example pf(2,1,10) = 0.8123; pf(2,50,50) = 0.9921") ttCalculator.SetToolTip(cmdQnorm, "qnormal quantiles. For example qnorm(0.05) = -1.6449; qnorm(0.9772, 100,15) = 130") - ttCalculator.SetToolTip(cmdPbirth, "simultaneous birthday probabilities. For example pbirthday(10) = 0.1169 ; pbirthday(50) = 0.97") - ttCalculator.SetToolTip(cmdQbirth, "simultaneous birthday quantiles. For example qbirthday(0.5) = 23, qbirthday(0.99) = 57") - ttCalculator.SetToolTip(cmdPbinom, "binomial probabilities. For example pbinom(3,5,0.4) = 0.0.913") - ttCalculator.SetToolTip(cmdQbinom, " binomial quantiles. For example qbinom(0.9,5,0.4) = 3") + ttCalculator.SetToolTip(cmdPbirth, "Simultaneous birthday probabilities. For example pbirthday(10) = 0.1169 ; pbirthday(50) = 0.97") + ttCalculator.SetToolTip(cmdQbirth, "Simultaneous birthday quantiles. For example qbirthday(0.5) = 23, qbirthday(0.99) = 57") + ttCalculator.SetToolTip(cmdPbinom, "Binomial probabilities. For example pbinom(3,5,0.4) = 0.0.913") + ttCalculator.SetToolTip(cmdQbinom, " Binomial quantiles. For example qbinom(0.9,5,0.4) = 3") ttCalculator.SetToolTip(cmdPpois, "Poisson probabilities. For example ppois(8, 5) = 0.93") ttCalculator.SetToolTip(cmdQpois, "Poisson quantiles. For example qpois(0.9, 5) = 8") - ttCalculator.SetToolTip(cmdPnbin, "negative binomial probabilities. For example pnbinom(4,1,0.4) = 0.922 (geometric); pnbinom(13,5,0.4) = 0.9058") - ttCalculator.SetToolTip(cmdQnbin, "negative binomial quantiles. For example qnbinom(0.9,1,0.4) = 4 (geometric); qnbinom(0.9, 5,0.4) = 13") + ttCalculator.SetToolTip(cmdPnbin, "Negative binomial probabilities. For example pnbinom(4,1,0.4) = 0.922 (geometric); pnbinom(13,5,0.4) = 0.9058") + ttCalculator.SetToolTip(cmdQnbin, "Negative binomial quantiles. For example qnbinom(0.9,1,0.4) = 4 (geometric); qnbinom(0.9, 5,0.4) = 13") ttCalculator.SetToolTip(cmdFact, "factorial. For example factorial(4) = 4*3*2*1 = 24; factorial(3.5) = gamma(4.5) = 11.63") ttCalculator.SetToolTip(cmdLfact, "log factorial. For example lfactorial(400) = 2001") ttCalculator.SetToolTip(cmdChoose, "binomial coefficient. For example choose(7,4) = 7!/(4!*3!) = 35") @@ -178,7 +178,7 @@ Public Class ucrCalculator ttCalculator.SetToolTip(cmdSin, "sine of angle in radians. For example sin(pi/2) = sin(rad(90)) = 1.") ttCalculator.SetToolTip(cmdAsin, "angle corresponding to a given sine (in the range (0 to pi). For example asin(1) = 1.57 = pi/2.") ttCalculator.SetToolTip(cmdFloor, "integer below the given value. For example floor(3.5)=3; floor(-3.5) = -4.") - ttCalculator.SetToolTip(cmdRad, "change from degrees to radians. For example rad(90) = 2*pi * 90/360 = 1.57 ( = pi/2)") + ttCalculator.SetToolTip(cmdRad, "Change from degrees to radians. For example rad(90) = 2*pi * 90/360 = 1.57 ( = pi/2)") ttCalculator.SetToolTip(cmdLogTen, "logarithm to base 10. For example log10(1000) =3 (=10^3)") ttCalculator.SetToolTip(cmdTan, " tangent of angle in radians. For example tan(pi/4) = sin(pi/4)/cos(pi/4) = tan(rad(45)) = 1") ttCalculator.SetToolTip(cmdAtan, "angle corresponding to a given tangent (in the range 0 to pi). For example atan(1) = 0.7854 (= pi/4); deg(atan(1)) = 45.") @@ -298,23 +298,23 @@ Public Class ucrCalculator ttCalculator.SetToolTip(cmdCp, "coefficent of persistence between sim and obs") ttCalculator.SetToolTip(cmdD, "Index of agreement between sim and obs") ttCalculator.SetToolTip(cmdKGE, "Kling-Gupta efficiency between sim and obs") - ttCalculator.SetToolTip(cmdMae, "mean absolute error between sim and obs") - ttCalculator.SetToolTip(cmdMd, "modified index of agreement between sim and obsmNSE") - ttCalculator.SetToolTip(cmdMe, "mean error between sim and obs") - ttCalculator.SetToolTip(cmdmNSE, "modified Nash-Sutcliffe efficiency between sim and obs") - ttCalculator.SetToolTip(cmdMse, "mean squared error between sim and obs") - ttCalculator.SetToolTip(cmdNrmse, "normalized root mean square error between sim and obs") + ttCalculator.SetToolTip(cmdMae, "Mean absolute error between sim and obs") + ttCalculator.SetToolTip(cmdMd, "Modified index of agreement between sim and obsmNSE") + ttCalculator.SetToolTip(cmdMe, "Mean error between sim and obs") + ttCalculator.SetToolTip(cmdmNSE, "Modified Nash-Sutcliffe efficiency between sim and obs") + ttCalculator.SetToolTip(cmdMse, "Mean squared error between sim and obs") + ttCalculator.SetToolTip(cmdNrmse, "Normalized root mean square error between sim and obs") ttCalculator.SetToolTip(cmdNSE, "Nash-Sutcliffe efficiency between sim and obs") - ttCalculator.SetToolTip(cmdPbias, "percent bias between sim and obs") - ttCalculator.SetToolTip(cmdPbiasfdc, "percent bias in the slope of the midsegment of the flow duration curve") - ttCalculator.SetToolTip(cmdRd, "relative index of agreement (d) between sim and obs. (Value is between 0 and 1)") - ttCalculator.SetToolTip(cmdRmse, "root mean square error between sim and obs, so the standard deviation of the model prediction error") - ttCalculator.SetToolTip(cmdRNSE, "relative Nash-Sutcliffe efficiency between sim and obs") - ttCalculator.SetToolTip(cmdRPearson, "correlation between sim and obs") - ttCalculator.SetToolTip(cmdRSD, "ratio of standard deviations between sim and obs") - ttCalculator.SetToolTip(cmdRsr, "ratio of the root mean square error between sim and obs to the standard deviation of obs") - ttCalculator.SetToolTip(cmdSsq, "sum of squared residuals between sim and obs") - ttCalculator.SetToolTip(cmdVE, " volumetric efficiency between sim and obs (Value is between 0 and 1)") + ttCalculator.SetToolTip(cmdPbias, "Percent bias between sim and obs") + ttCalculator.SetToolTip(cmdPbiasfdc, "Percent bias in the slope of the midsegment of the flow duration curve") + ttCalculator.SetToolTip(cmdRd, "Relative index of agreement (d) between sim and obs. (Value is between 0 and 1)") + ttCalculator.SetToolTip(cmdRmse, "Root mean square error between sim and obs, so the standard deviation of the model prediction error") + ttCalculator.SetToolTip(cmdRNSE, "Relative Nash-Sutcliffe efficiency between sim and obs") + ttCalculator.SetToolTip(cmdRPearson, "Correlation between sim and obs") + ttCalculator.SetToolTip(cmdRSD, "Ratio of standard deviations between sim and obs") + ttCalculator.SetToolTip(cmdRsr, "Ratio of the root mean square error between sim and obs to the standard deviation of obs") + ttCalculator.SetToolTip(cmdSsq, "Sum of squared residuals between sim and obs") + ttCalculator.SetToolTip(cmdVE, " Volumetric efficiency between sim and obs (Value is between 0 and 1)") ' circular keyboard tooltips ttCalculator.SetToolTip(cmdCircular, "Define a variable as circular. Specify whether the data are in radians (default), degrees, or hours.")