* ============================================================================== * ciquartile: Creating spike plots with interquarterile range * Author: Zong Huang * * Based off of Alexander Staudt's cibar * ============================================================================== * over1 : over-variable * over2 : additional over-variable * over3 : additional over-variable * bar : plot spikes as bar; default is scatter * horizontal : plot spikes horizontally; default is vertically * reverse : reverse order of spikes * missing : omit missing spikes (buggy) * gap2 : specify gap between spike groups (over2); default is 67% (of a spike) * gap3 : specify gap between spike groups (over3); default is 100% (of a spike) * spikeopts : specify the look of the spikes (global) * spikecolor : specify the color of the spikes, delimited by spaces * spikegap : specify gap within spike groups; default is 0% (of a spike) * spike : specify the look for each spike, delimited by || * spikegroup : specify the look for each spike group (over2), delimited by || * ciopts : specify the look of the confidence intervals (global) * cicolor : specify the color of the confidence intervals, delimited by spaces * ci : specify the look for each confidence interval, delimited by || * cigroup : specify the look for each confidence interval group (over2), delimited by || * graphopts : specify additional graph options program define ciquartile syntax anything(name = var) [if], /// over1(string) [over2(string) over3(string) /// bar horizontal missing reverse /// gap2(integer 67) gap3(integer 100) /// spikeopts(string asis) spikecolor(string asis) spikegap(integer 0) /// spike(string asis) spikegroup(string asis) /// ciopts(string asis) cicolor(string asis) /// ci(string asis) cigroup(string asis) /// graphopts(str asis)] preserve * ========================================================================== * Parse options * ========================================================================== * If option mark touse `if' qui keep if touse == 1 * Direction option if "`horizontal'" == "horizontal" { local a1 "y" local a2 "x" local a1_angle "labgap(2) angle(0)" local a1_order "s median" } else { local a1 "x" local a2 "y" local a1_angle "labgap(2)" local a1_order "median s" } * Group options local bylist = "`over1' `over2' `over3'" local n_over = wordcount("`bylist'") local gap2 = `gap2' / 100 - 1 local gap3 = `gap3' / 100 * Spike options local spikeopts = "fintensity(inten100) `a1'axis(1 2 3)" + " " + `"`spikeopts'"' local sg = `spikegap' / 100 * Confidence interval options local ciopts = "lcolor(gs8)" + " " + `"`ciopts'"' * ========================================================================== * Calculate mean and confidence interval * ========================================================================== * Calculate percentiles bysort `bylist': egen lb = pctile(`var'), p(25) bysort `bylist': egen median = mean(`var') bysort `bylist': egen ub = pctile(`var'), p(75) * Get percentiles keep `bylist' lb median ub duplicates drop foreach x in `bylist' { qui drop if `x' == . // Confidence intervals not calculated for missing groups } * ========================================================================== * Get group labels * ========================================================================== if `n_over' == 2 { capture confirm existence `over2' if _rc == 6 { local over2 = "`over3'" display as txt "You specified over3() but not over2(). The value of over3() is used in over2() instead." } } * Reindex group levels sequentially forvalues i = 1/`n_over' { qui tab `over`i'' local labels`i' = `r(r)' qui levelsof(`over`i''), local(levels`i') } forvalues i = 1/`n_over' { qui gen over`i'_n = . tokenize "`levels`i''" forvalues j = 1/`labels`i'' { qui replace over`i'_n = `j' if `over`i'' == ``j'' } } * Label sequential group levels forvalues i = 1/`n_over' { tokenize "`levels`i''" forvalues j = 1/`labels`i'' { local ltext : label (`over`i'') ``j'' label define vlabel`i' `j' `"`ltext'"', add if `j' == `labels`i'' label value over`i'_n vlabel`i' } } forvalues i = 1/`n_over' { qui levelsof(over`i'_n), local(levels`i'_n) } * ========================================================================== * Generate graph labels (single group case) * ========================================================================== if `n_over' == 1 { * Adjust spacing for spikegap qui tab over1_n qui gen s = over1_n qui replace s = s * (1 + `sg') * Reverse spacing if applicable if "`reverse'" == "reverse" replace s = s * -1 * Get spacing for spikes qui sum s local s_min = `r(min)' - .75 local s_max = `r(max)' + .75 * Get labels for spikes local axis = "`a1'label(`s_min'" + " " + `"" ""' + " " + "`s_max'" + " " + `"" ""' + ", noticks `a1_angle')" } * ========================================================================== * Generate graph labels (two group case) * ========================================================================== if `n_over' == 2 { * Add missing spikes forvalues i = 1/`labels1' { forvalues j = 1/`labels2' { qui tab median if over1_n == `i' & over2_n == `j' if `r(r)' == 0 { local obsv = _N + 1 qui set obs `obsv' qui replace over1_n = `i' in `obsv' qui replace over2_n = `j' in `obsv' } } } sort over2_n over1_n * Adjust spacing for spikegap qui gen s = . tokenize "`levels1_n'" forvalues i = 1/`labels1' { qui replace s = over1_n + (``i'' - 1) * (`sg') if over1_n == ``i'' } * Adjust spacing for gap2 tokenize "`levels2_n'" forvalues i = 1/`labels2' { qui replace s = s + (`labels1' + 1 + `gap2' + `sg') * (`i' - 1) if over2_n == ``i'' } * Get spacing for spikes forvalues i = 1/`labels2' { qui sum s if over2_n == `i' local s_`i' = `r(mean)' if `i' == `labels2' { local s_min = 0 local s_max = `r(max)' + 1 } } * Reverse spacing if applicable if "`reverse'" == "reverse" { replace s = s * -1 forvalues i = 1/`labels2' { local s_`i' = `s_`i'' * -1 } local s_max = `s_max' * -1 } * Get labels for spikes local axis = "`a1'label(`s_min'" + " " + `"" ""' forvalues i = 1/`labels2' { local l_`i' : label (over2_n) `i' local axis = `"`axis'"' + " " + "`s_`i''" + " " + `"`"`l_`i''"'"' } local axis = `"`axis'"' + " " + "`s_max'" + " " + `"" ""' + " " + ", noticks `a1_angle')" } * ========================================================================== * Generate graph labels (three group case) * ========================================================================== if `n_over' == 3 { * Add missing spikes forvalues i = 1/`labels1' { forvalues j = 1/`labels2' { forvalues k = 1/`labels3' { qui tab median if over1_n == `i' & over2_n == `j' & over3_n == `k' if `r(r)' == 0 { local obsv = _N+1 qui set obs `obsv' qui replace over1_n = `i' in `obsv' qui replace over2_n = `j' in `obsv' qui replace over3_n = `k' in `obsv' } } } } sort over3_n over2_n over1_n * Drop missing cross-groups (if applicable) qui egen over_cg = group(over3_n over2_n) if "`missing'" == "missing" { bysort over2_n over3_n: egen nonmissing = count(median) qui drop if nonmissing == 0 } sort over_cg `over1' * Index cross-groupings qui tab over_cg local labels_cg = `r(r)' qui levelsof(over_cg), local(levels_cg) * Adjust spacing for spikegap qui gen index = _n qui gen over1_n2 = mod(index, `labels1') qui replace over1_n2 = `labels1' if over1_n2 == 0 qui gen s = . tokenize "`levels1_n'" forvalues i = 1/`labels1' { qui replace s = over1_n2 + (``i'' - 1) * (`sg') if over1_n2 == ``i'' } * Adjust spacing for gap2 tokenize "`levels_cg'" forvalues i = 1/`labels_cg' { qui replace s = s + (`i' - 1) * (`labels1' + 1 + `gap2' + `sg') if over_cg == ``i'' } * Adjust spacing for gap3 forvalues i = 1/`labels3' { qui replace s = s + (-`gap2' + 1) * (`i' - 1) * `gap3' if over3_n == `i' } * Get spacing for spikes tokenize "`levels_cg'" forvalues i = 1/`labels_cg' { qui sum s if over_cg == ``i'' local s_`i' = `r(mean)' if `i' == `labels2' { local s_min = 0 local s_max = `r(max)' + 1 } } * Reverse spacing if applicable if "`reverse'" == "reverse" { replace s = s * -1 forvalues i = 1/`labels_cg' { local s_`i' = `s_`i'' * -1 } local s_max = `s_max' * -1 } * Get labels for cross-groupings tokenize "`levels3_n'" forvalues i = 1/`labels3' { tokenize "`levels2_n'" forvalues j = 1/`labels2' { local l`j' : label (over2_n) ``j'' local y = `j' + (`i' - 1) * `labels2' local y_l = "`y'" + " " + `"`"`l`j''"'"' if `i' == 1 & `j' == 1 local vlabel = `"`y_l'"' else local vlabel = `"`vlabel'"' + " " + `"`y_l'"' } } qui label define vlabel `vlabel' qui label value over_cg vlabel * Get labels for spikes tokenize "`levels_cg'" local axis = "`a1'label(`s_min'" + " " + `"" ""' forvalues i = 1/`labels_cg' { local l_`i' : label (over_cg) ``i'' local axis = `"`axis'"' + " " + "`s_`i''" + " " + `"`"`l_`i''"'"' } local axis = `"`axis'"' + " " + "`s_max'" + " " + `"" ""' + " " + ", noticks `a1_angle')" * Get labels for spike groupings forvalues i = 1/`labels3' { forvalues j = 1/`labels_cg' { qui sum s if over3_n == `i' } local ss_`i' = `r(mean)' local ll_`i' : label (over3_n) `i' if `i' == 1 local l3 = "`ss_`i''" + " " + `"`"`ll_`i''"'"' else local l3 = `"`l3'"' + " " + "`ss_`i''" + " " + `"`"`ll_`i''"'"' if `i' == `labels3' { local axis = `"`axis'"' + " " + "`a1'label(" + `"`l3'"' + ", noticks `a1_angle' axis(2))" } } } * ========================================================================== * Generate graph components (single group case) * ========================================================================== if `n_over' == 1 { * Generate graph components forvalues j = 1/`labels1' { if "`bar'" == "bar" { qui gen spike`j' = "bar median s if over1_n == `j', `spikeopts' `horizontal'" } else { qui gen spike`j' = "scatter `a1_order' if over1_n == `j', `spikeopts'" } qui gen rcap`j' = "rcap lb ub s if over1_n == `j', `ciopts' `horizontal'" } * Add colors to graph command if wordcount(`"`spikecolor'"') > 0 { qui gen scolors = `"`spikecolor'"' qui split scolors, gen(scolor) forvalues j = 1/`r(nvars)' { cap qui replace spike`j' = spike`j' + " color(" + scolor`j' + ")" } } if wordcount(`"`cicolor'"') > 0 { qui gen rcolors = `"`cicolor'"' qui split rcolors, gen(rcolor) forvalues j = 1/`r(nvars)' { cap qui replace rcap`j' = rcap`j' + " lcolor(" + rcolor`j' + ")" } } * Add options to graph command if wordcount(`"`spike'"') > 0 { gen sopts = `"`spike'"' qui split sopts, gen(sopt) p("||") forvalues j = 1/`r(nvars)' { cap qui replace spike`j' = spike`j' + " " + sopt`j' } } if wordcount(`"`ci'"') > 0 { gen ropts = `"`ci'"' qui split ropts, gen(ropt) p("||") forvalues j = 1/`r(nvars)' { cap qui replace rcap`j' = rcap`j' + " " + ropt`j' } } } * ========================================================================== * Generate graph components (multiple group case) * ========================================================================== if `n_over' > 1 { * Generate graph components forvalues i = 1/`labels1' { forvalues j = 1/`labels2' { if "`bar'" == "bar" { qui gen spike`i'`j' = "bar median s if over1_n == `i' & over2_n == `j', `spikeopts' `horizontal'" } else { qui gen spike`i'`j' = "scatter `a1_order' if over1_n == `i' & over2_n == `j', `spikeopts'" } qui gen rcap`i'`j' = "rcap lb ub s if over1_n == `i' & over2_n == `j', `ciopts' `horizontal'" } } * Add colors to graph command if wordcount(`"`spikecolor'"') > 0 { qui gen scolors = `"`spikecolor'"' qui split scolors, gen(scolor) forvalues i = 1/`r(nvars)' { forvalues j = 1/`labels2' { cap qui replace spike`i'`j' = spike`i'`j' + " color(" + scolor`i' + ")" } } } if wordcount(`"`cicolor'"') > 0 { qui gen rcolors = `"`cicolor'"' qui split rcolors, gen(rcolor) forvalues i = 1/`r(nvars)' { forvalues j = 1/`labels2' { cap qui replace rcap`i'`j' = rcap`i'`j' + " lcolor(" + rcolor`i' + ")" } } } * Add options to graph command if wordcount(`"`spike'"') > 0 { gen sopts = `"`spike'"' qui split sopts, gen(sopt) p("||") forvalues i = 1/`r(nvars)' { forvalues j = 1/`labels2' { cap qui replace spike`i'`j' = spike`i'`j' + " " + sopt`i' } } } if wordcount(`"`ci'"') > 0 { gen ropts = `"`ci'"' qui split ropts, gen(ropt) p("||") forvalues i = 1/`r(nvars)' { forvalues j = 1/`labels2' { cap qui replace rcap`i'`j' = rcap`i'`j' + " " + ropt`i' } } } if wordcount(`"`spikegroup'"') > 0 { gen sgopts = `"`spikegroup'"' qui split sgopts, gen(sgopt) p("||") forvalues i = 1/`labels1' { forvalues j = 1/`r(nvars)' { cap qui replace spike`i'`j' = spike`i'`j' + " " + sgopt`j' } } } if wordcount(`"`cigroup'"') > 0 { gen rgopts = `"`cigroup'"' qui split rgopts, gen(rgopt) p("||") forvalues i = 1/`labels1' { forvalues j = 1/`r(nvars)' { cap qui replace rcap`i'`j' = rcap`i'`j' + " " + rgopt`j' } } } } * ========================================================================== * Generate graph * ========================================================================== * Concatenate graph components if "`bar'" == "bar" { qui egen graph = concat(spike* rcap*), punct(") (") } else { qui egen graph = concat(rcap* spike*), punct(") (") } qui replace graph = "(" + graph + ")" local graph = graph[1] * ========================================================================== * Get legend (single group case) * ========================================================================== if `n_over' == 1 { forvalues j = 1/`labels1' { local l`j' : label (over1_n) `j' if "`bar'" == "bar" { local v`j' = `j' } else { local v`j' = `j' + `labels1' } if `j' == 1 { local legend1 = `"`v`j'' "`l`j''""' } else { local legend1 = `"`legend1'"' + " " + `"`v`j'' "`l`j''""' } } local legend = `"legend(order(`legend1') region(lcolor(white)))"' } * ========================================================================== * Get legend (multiple group case) * ========================================================================== if `n_over' > 1 { forvalues j = 1/`labels1' { local l`j' : label (over1_n) `j' if "`bar'" == "bar" { local v`j' = `j' * 2 } else { local v`j' = (`j' + `labels1') * 2 } if `j' == 1 { local legend1 = `"`v`j'' "`l`j''""' } else { local legend1 = `"`legend1'"' + " " + `"`v`j'' "`l`j''""' } } local legend = `"legend(order(`legend1') region(lcolor(white)))"' } * ========================================================================== * Plot graph * ========================================================================== local format = `"`legend' plotregion(margin(bargraph)) graphregion(color(white))"' + " " + /// `"`a2'title("") `a1'title("") `a1'title("", axis(2)) `a1'title("", axis(3))"' + " " + /// `"`a1'scale(axis(2) noline) `a1'scale(axis(3) noline)"' + " " + /// `"`a1'label(none, axis(2) noticks) `a1'label(none, axis(3) noticks)"' + " " + /// `"`a1'label(, nogrid) `a2'label(, grid format(%9.3g))"' dis `"`graph', `format' `axis' `graphopts'"' twoway `graph', `format' `axis' `graphopts' end exit