clear all ******* bring Qualtrics data into stata format insheet using "data/raw/expAbatch1.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 1000 destring, replace rename treatment fined save "data/raw_1.dta", replace clear insheet using "data/raw/expAbatch2.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 2000 drop excluded destring, replace rename treatment fined save "data/raw_2.dta", replace clear insheet using "data/raw/expAbatch3.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 3000 destring, replace drop excluded rename treatment fined replace fined = 2 if fined == 1 // 2 is substance only replace fined = 3 if fined == 0 // 3 is rhetoric only save "data/raw_3.dta", replace clear insheet using "data/raw/expAbatch4.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 4000 destring, replace drop excluded rename treatment fined save "data/raw_4.dta", replace clear insheet using "data/raw/expAbatch5.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 5000 destring, replace drop excluded rename treatment fined save "data/raw_5.dta", replace clear insheet using "data/raw/expAbatch6.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 6000 destring, replace drop excluded rename treatment fined replace fined = 2 if fined == 1 // 2 is substance only replace fined = 3 if fined == 0 // 3 is rhetoric only save "data/raw_6.dta", replace clear insheet using "data/raw/expAbatch7.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 7000 destring, replace drop excluded rename treatment fined replace fined = 2 if fined == 1 // 2 is substance only replace fined = 3 if fined == 0 // 3 is rhetoric only save "data/raw_7.dta", replace clear insheet using "data/raw/expAbatch8.csv", names gen id = _n drop if id == 1 replace id = id - 1 + 8000 destring, replace drop excluded rename treatment fined replace fined = 2 if fined == 1 // 2 is substance only replace fined = 3 if fined == 0 // 3 is rhetoric only drop codewt drop codetreat save "data/raw_8.dta", replace clear use "data/raw_1.dta" append using "data/raw_2.dta" append using "data/raw_3.dta" append using "data/raw_4.dta" append using "data/raw_5.dta" append using "data/raw_6.dta" append using "data/raw_7.dta" append using "data/raw_8.dta" rename v6 ip rename v8 startDate rename v9 endDate ***** attrition gen attrited = help_test == . gen attrition_before_video = q120 == . gen started_video = (q124 == 1 | q125 == 1) preserve keep id attrited attrition_before_video started_video fined save "data/attrition.dta", replace restore drop if help_test == . drop attrited attrition_before_video started_video save "data/raw_all.dta", replace ** find switching points // strategy: // 1. reshape // 2. order // 3. generate variable in order starting from 35, going down // 4. generate second variable, set to missing if choice was 1, to order otherwise, egen min of these // 5. generate third variable, set to missing if choice was 2, to order otherwise, egen max of those // 6. check for single switch by comparing whether max + 1 == min preserve rename sc0_0 score gen pay_test = payment_for_test <= 25 keep id ip amt_id gender age ethnicity educ marital urban income employed hh_size stocks rule72* calculate line1 line2 amt1 amt2 decision_index pay_test payment_for_test score fined finlit* att* help_test test* startDate endDate time* save "data/non_MPL.dta", replace restore keep id impl* forvalues i = 1 / 20 { rename impl`i'_1_11 impl`i'_1 rename impl`i'_1_21 impl`i'_2 rename impl`i'_1_31 impl`i'_3 rename impl`i'_1_41 impl`i'_4 rename impl`i'_1_51 impl`i'_5 rename impl`i'_1_61 impl`i'_6 rename impl`i'_1_71 impl`i'_7 rename impl`i'_1_81 impl`i'_8 rename impl`i'_1_91 impl`i'_9 rename impl`i'_1_101 impl`i'_10 rename impl`i'_1_111 impl`i'_11 } keep impl1_* impl2_* impl3_* impl4_* impl5_* impl6_* impl7_* impl8_* impl9_* impl10_* impl11_* impl12_* impl13_* impl14_* impl15_* impl16_* impl17_* impl18_* impl19_* impl20_* id reshape long impl1_ impl2_ impl3_ impl4_ impl5_ impl6_ impl7_ impl8_ impl9_ impl10_ impl11_ impl12_ impl13_ impl14_ impl15_ impl16_ impl17_ impl18_ impl19_ impl20_, i(id) j(line 1-11) forvalues i = 1 / 20 { rename impl`i'_ impl`i' } sort id line gen sum_multi_switch_1 = 0 local varlist impl1 forvalues i=2/20 { local varlist `varlist' impl`i' } ** first pricelist for each delayed reward foreach var in `varlist' { gen line_left = line gen line_right = line replace line_left = . if `var' == 1 replace line_right = . if `var' == 0 by id: egen switch_low = max(line_left) by id: egen switch_high = min(line_right) by id: egen mll = max(line_left) by id: egen mlr = min(line_right) gen multi_switch_`var' = 1 - (switch_high == 1 + switch_low) replace multi_switch_`var' = 0 if switch_high == 11 | switch_high == . | switch_low == 1 | switch_low == . gen value_`var' = switch_high replace value_`var' = . if multi_switch_`var' == 1 replace value_`var' = 0 if mlr == 1 //case where all right selected replace value_`var' = 12 if mll == 11 // case where all left selected replace sum_multi_switch_1 = sum_multi_switch_1 + multi_switch_`var' drop line_left drop line_right drop switch_high drop switch_low drop mll drop mlr gen value_coarse_`var' = 20 - 2*(value_`var'-1) } preserve drop value_impl* drop impl* collapse (mean) value* sum_multi* (max) multi*, by(id) save "data/data_coarse.dta", replace restore // second pricelist for each delayed reward clear all set more off use "data/raw_all.dta" keep id impl* forvalues i = 1 / 20 { rename impl`i'_2_31 impl`i'_1 rename impl`i'_2_41 impl`i'_2 rename impl`i'_2_51 impl`i'_3 rename impl`i'_2_61 impl`i'_4 rename impl`i'_2_71 impl`i'_5 rename impl`i'_2_81 impl`i'_6 rename impl`i'_2_91 impl`i'_7 rename impl`i'_2_101 impl`i'_8 rename impl`i'_2_111 impl`i'_9 rename impl`i'_2_121 impl`i'_10 drop impl`i'_1_* } keep impl1_* impl2_* impl3_* impl4_* impl5_* impl6_* impl7_* impl8_* impl9_* impl10_* impl11_* impl12_* impl13_* impl14_* impl15_* impl16_* impl17_* impl18_* impl19_* impl20_* id reshape long impl1_ impl2_ impl3_ impl4_ impl5_ impl6_ impl7_ impl8_ impl9_ impl10_ impl11_ impl12_ impl13_ impl14_ impl15_ impl16_ impl17_ impl18_ impl19_ impl20_ , i(id) j(line 1-10) forvalues i = 1 / 20 { rename impl`i'_ impl`i' } sort id line gen sum_multi_switch_2 = 0 local varlist impl1 forvalues i=2/20 { local varlist `varlist' impl`i' } foreach var in `varlist' { gen line_left = line gen line_right = line replace line_left = . if `var' == 1 replace line_right = . if `var' == 0 by id: egen switch_low = max(line_left) by id: egen switch_high = min(line_right) by id: egen mll = max(line_left) by id: egen mlr = min(line_right) gen multi_switch_`var' = 1 - (switch_high == 1 + switch_low) replace multi_switch_`var' = 0 if (switch_high == 1 & switch_low == .) | (switch_high == . & switch_low == 10) gen value_`var' = switch_low replace value_`var' = . if multi_switch_`var' == 1 replace value_`var' = 0 if mlr == 1 //case where all right selected replace value_`var' = 10 if mll == 10 // case where all left selected replace sum_multi_switch_2 = sum_multi_switch_2 + multi_switch_`var' drop line_left drop line_right drop switch_high drop switch_low drop mll drop mlr gen value_fine_`var' = 1.8 - 0.2*value_`var' replace value_fine_`var' = 0 if value_fine_`var' < 0 } drop value_impl* drop impl* collapse (mean) value* sum_multi* (max) multi*, by(id) save "data/data_fine.dta", replace *********************************** *** merge datasets *************** *********************************** clear all use "data/data_fine.dta" merge 1:1 id using "data/data_coarse.dta" drop _merge merge 1:1 id using "data/non_MPL.dta" drop _merge forvalues i = 1/20 { gen value`i' = value_coarse_impl`i' + value_fine_impl`i' rename time`i'1_1 timeFirstClick`i' rename time`i'1_2 timeLastClick`i' rename time`i'1_3 timeSubmit`i' rename time`i'1_4 numClicks`i' } // Label variables conveniently gen multi = 0 forvalues i = 1 / 20 { replace multi = 1 if multi_switch_impl`i' == 1 replace multi = 1 if sum_multi_switch_1 == 1 | sum_multi_switch_2 == 1 } drop multi_* value_* reshape long value timeFirstClick timeLastClick timeSubmit numClicks, i(id) j(treatment) gen framed = treatment > 10 gen delay = 72 replace delay = 36 if treatment >=6 & treatment <= 10 replace delay = 36 if treatment == 11 | treatment == 13 | treatment == 15 | treatment == 17 | treatment == 19 gen amount = 20 replace amount = 18 if treatment == 2 | treatment == 7 | treatment == 14 | treatment == 13 replace amount = 16 if treatment == 3 | treatment == 8 | treatment == 16 | treatment == 15 replace amount = 14 if treatment == 4 | treatment == 9 | treatment == 18 | treatment == 17 replace amount = 12 if treatment == 5 | treatment == 10 | treatment == 20 | treatment == 19 gen amount_precise = amount // rename treatments such that #framed = #unframed + 10 gen tr_new = tr replace tr_new = 1 if treat == 6 replace tr_new = 2 if treat == 1 replace tr_new = 3 if treat == 7 replace tr_new = 4 if treat == 2 replace tr_new = 5 if treat == 8 replace tr_new = 6 if treat == 3 replace tr_new = 7 if treat == 9 replace tr_new = 8 if treat == 4 replace tr_new = 9 if treat == 10 replace tr_new = 10 if treat == 5 rename treatment tr_old rename tr_new treatment replace treatment = treatment - 10 if framed == 1 replace amount_precise = 20.40 if treatment == 11 | treatment == 1 replace amount_precise = 20.47 if treatment == 12 | treatment == 2 replace amount_precise = 18.47 if treatment == 13 | treatment == 3 replace amount_precise = 18.73 if treatment == 14 | treatment == 4 replace amount_precise = 16.29 if treatment == 15 | treatment == 5 replace amount_precise = 16.80 if treatment == 16 | treatment == 6 replace amount_precise = 14.37 if treatment == 17 | treatment == 7 replace amount_precise = 15.16 if treatment == 18 | treatment == 8 replace amount_precise = 11.58 if treatment == 19 | treatment == 9 replace amount_precise = 11.83 if treatment == 20 | treatment == 10 gen id_alt = 1000*id+treatment sort id_alt order id_alt delay treatment tr_old drop tr_old reshape wide value timeFirstClick timeLastClick timeSubmit numClicks, i(id_alt) j(framed) rename value0 v_unframed rename value1 v_framed rename timeFirstClick0 timeFirstClickUnframed rename timeFirstClick1 timeFirstClickFramed rename timeLastClick0 timeLastClickUnframed rename timeLastClick1 timeLastClickFramed rename timeSubmit0 timeSubmitUnframed rename timeSubmit1 timeSubmitFramed rename numClicks0 numClicksUnframed rename numClicks1 numClicksFramed gen r = . replace r = 0.02 if treatment == 1 replace r = 0.01 if treatment == 2 replace r = 0.04 if treatment == 3 replace r = 0.02 if treatment == 4 replace r = 0.06 if treatment == 5 replace r = 0.03 if treatment == 6 replace r = 0.08 if treatment == 7 replace r = 0.04 if treatment == 8 replace r = 0.05 if treatment == 9 replace r = 0.25 if treatment == 10 gen doublings = 1 replace doublings = 2 if treatment == 3 | treatment == 4 replace doublings = 3 if treatment == 5 | treatment == 6 replace doublings = 4 if treatment == 7 | treatment == 8 replace doublings = 2.5 if treatment == 9 | treatment == 10 replace age = age + 17 forvalues i = 1/10 { gen t`i' = 0 } replace t1 = 1 if test1 == 2 replace t2 = 1 if test2 == 4 replace t3 = 1 if test3 == 4 replace t4 = 1 if test4 == 7 replace t5 = 1 if test5 == 6 replace t6 = 1 if test6 == 3 replace t7 = 1 if test7 == 4 replace t8 = 1 if test8 == 2 replace t9 = 1 if test9 == 3 replace t10 = 1 if test10 == 3 gen score_compounding = t1+t2+t3+t4+t5 gen score_indexing = score - score_compounding gen fl1 = finlit1 == 1 gen fl2 = finlit2 == 1 gen fl3 = finlit3 == 3 gen fl4 = finlit4 == 1 gen fl5 = finlit5 == 2 gen fl_score = (fl1 == 1) * (fl2 == 1) * (fl3 == 1) * (fl4 == 1) * (fl5 == 1) gen fl_sum = (fl1 == 1) + (fl2 == 1) + (fl3 == 1) + (fl4 == 1) + (fl5 == 1) gen fl_score_compound = (fl1 == 1) * (fl2 == 1) * (fl3 == 1) gen fl_sum_compound = (fl1 == 1) + (fl2 == 1) + (fl3 == 1) gen size_error_simple = . replace size_error_simple = 3.20 if treatment == 1 replace size_error_simple = 3.27 if treatment == 2 replace size_error_simple = 7.49 if treatment == 3 replace size_error_simple = 7.75 if treatment == 4 replace size_error_simple = 9.97 if treatment == 5 replace size_error_simple = 10.48 if treatment == 6 replace size_error_simple = 10.88 if treatment == 7 replace size_error_simple = 11.66 if treatment == 8 replace size_error_simple = 5.98 if treatment == 9 replace size_error_simple = 6.23 if treatment == 10 // use midpoint of the interval for analysis replace v_framed = v_framed + 0.1 replace v_unframed = v_unframed + 0.1 replace v_framed = 0 if v_framed <= 0 replace v_unframed = 0 if v_unframed <= 0 merge m:1 id using "data/attrition.dta" gen double startTime = clock(startDate, "YMDhms") gen double endTime = clock(endDate, "YMDhms") gen double duration = endTime - startTime replace duration = duration / (1000*60) // duration in minutes drop line1 line2 decision_index gen fl_high = fl_score_compound == 1 gen discount_unframed = v_unframed/amount * 100 gen discount_framed = v_framed/amount_precise * 100 gen discount_framed_72 = v_framed/amount * 100 sort id delay by id delay: egen min_discount_unframed = min(discount_unframed) by id delay: egen max_discount_unframed = max(discount_unframed) gen diff = discount_framed - discount_unframed gen diff72 = discount_framed - discount_unframed gen min_diff = discount_framed - min_discount_unframed gen max_diff = discount_framed - max_discount_unframed gen abs_diff = - abs(diff) gen sq_diff = - (diff/100)^2*100 gen sq_diff72 = - (diff72/100)^2*100 gen sq_diff_up = - (diff/100)^2*100 gen sq_diff_down = - (diff/100)^2*100 replace sq_diff_up = 0 if diff > 0 replace sq_diff_down = 0 if diff < 0 sort id by id: egen mean_diff = mean(diff) gen sq_mean_diff = - (mean_diff/100)^2*100 gen sq_mean_diff_up = - (mean_diff/100)^2*100 gen sq_mean_diff_down = - (mean_diff/100)^2*100 replace sq_mean_diff_up = 0 if mean_diff > 0 replace sq_mean_diff_down = 0 if mean_diff < 0 gen sqrt_diff = - sqrt(abs(diff)/100)*100 gen abs_min_diff = - abs(min_diff) gen abs_max_diff = - abs(max_diff) gen sq_min_diff = -(min_diff/100)^2*100 gen sq_max_diff = -(max_diff/100)^2*100 gen CVa = min(sq_min_diff, sq_max_diff) gen CVb = max(sq_min_diff, sq_max_diff) replace CVb = 0 if discount_framed <= max_discount_unframed & discount_framed >= min_discount_unframed gen asy_diff_up = diff replace asy_diff_up = 0 if diff > 0 gen asy_diff_down = - diff replace asy_diff_down = 0 if diff < 0 sort id delay by id delay: egen mean_disc = mean(discount_unframed) gen r72 = rule72 == 1 gen r72inv = rule72_inv == 1 // generate treatment dummies gen Control = fined == 0 // Control gen Full = fined == 1 // Full gen Rule72 = fined == 2 // Substance Only gen Rhetoric = fined == 3 // Rhetoric Only label define treatment 0 "Control" 1 "Full Treatment" 2 "Only Rule of 72" 3 "Only Rhetoric" label values fined treatment // measures of noise and inattention sort id delay by id delay: egen sdV = sd(v_framed) by id: egen mean_sdV = mean(sdV) gen slope_unframed = . gen slope_framed = . gen corr_unframed_framed = . gen r2_unframed_framed = . drop if id == -1 egen id3 = group(id) su id3 local max = r(max) forvalues i = 1/`max' { capture: reg discount_unframed amount if id3 == `i' capture: replace slope_unframed = _b[amount] if id3 == `i' capture: reg discount_framed amount_precise if id3 == `i' capture: replace slope_framed = _b[amount_precise] if id3 == `i' capture: reg discount_framed discount_unframed if id3 == `i' capture: replace corr_unframed_framed = _b[discount_unframed] if id3 == `i' capture: replace r2_unframed_framed = e(r2) if id3 == `i' } su slope_unframed, d gen lowSlope25 = slope_unframed <= r(p25) gen lowSlope50 = slope_unframed <= r(p50) gen lowSlope75 = slope_unframed <= r(p75) ***** Demographic variables gen afram = ethnicity == 1 gen asian = ethnicity == 2 gen caucasian = ethnicity == 3 gen hispanic = ethnicity == 4 gen other = ethnicity == 5 gen lessThanHighSchool = educ <= 2 gen highSchool = educ == 3 gen voc = educ == 4 gen someCollege = educ == 5 gen college = educ == 6 gen graduate = educ >= 7 gen rural = urban == 3 gen urbanSuburban = urban <= 2 gen fullTime = employed == 3 gen partTime = employed == 2 gen hh1 = hh_size == 1 gen hh2 = hh_size == 2 gen hh3 = hh_size == 3 gen hh4 = hh_size >= 4 gen married = marital == 3 | marital == 4 gen widowed = marital == 6 gen divorced = marital == 1 gen never_married = marital == 2 | marital == 5 gen ownStocks = stocks == 1 gen fl_high_remaining = fl4 == 1 & fl5 == 1 gen was_married = widowed == 1 | divorced == 1 gen highSchoolOrLess = highSchool == 1 | lessThanHighSchool == 1 gen vocOrSomeCollege = voc == 1 | someCollege == 1 gen hh3to5 = hh_size >= 2 & hh_size <= 5 gen hhGeq6 = hh_size >= 6 replace income = income / 1000 egen tag = tag(id) save "data/dataExpA.dta", replace