From: Nathan TeBlunthuis Date: Tue, 12 Mar 2024 16:39:12 +0000 (-0700) Subject: add the rest of the code. X-Git-Url: https://code.communitydata.science/articlequality_ordinal.git/commitdiff_plain/refs/heads/master?ds=inline add the rest of the code. --- diff --git a/Makefile b/Makefile new file mode 100644 index 0000000..a9cb94a --- /dev/null +++ b/Makefile @@ -0,0 +1,37 @@ +SHELL:=/bin/bash + +data/20200301_article_labelings.json_SUCCESS: + ./run_aql_jobs.sh + +data/20200301_article_labelings_sample.json:sample_training_labels.py + source ./bin/activate; \ + ./sample_training_labels.py + + +data/article_sample.csv:sample_articles.py + source ./bin/activate; \ + start_spark_and_run.sh 1 sample_articles.py + +data/scored_article_sample.feather:data/article_sample_set.csv ores_scores_sample.py + source ./bin/activate; \ + python3 ores_scores_sample.py data/article_sample_set.parquet data/scored_article_sample.feather + +# run this step on kibo +data/20200301_al_sample_revisions.w_text.json:data/20200301_article_labelings_sample.json + source ./bin/activate; \ + python3 articlequality/utility fetch_text \ + --api-host=https://en.wikipedia.org \ + --labelings=data/20200301_article_labelings_sample.json \ + --output=data/20200301_al_sample_revisions.w_text.json \ + +# run this step on kibo +data/20200301_al_sample_revisions.w_scores.json:data/20200301_al_sample_revisions.w_text.json + python3 score_sample_labels.py + +models/ordinal_quality.RDS:data/20200301_al_sample_revisions.w_text.json ordinal_quality_models.R + Rscript ordinal_quality_models.R + + + + +PHONY: data/20200301_article_labelings.json diff --git a/add_quality_scores.R b/add_quality_scores.R new file mode 100644 index 0000000..be4fbc5 --- /dev/null +++ b/add_quality_scores.R @@ -0,0 +1,59 @@ +#!/usr/bin/env Rscript +library(arrow) +library(brms) +library(data.table) +library(ggplot2) +library(parallel) +options(mc.cores=26) +registerDoParallel(cores=26) + +dataset <- as.data.table(read_feather("data/scored_article_sample.feather")) +dataset <- dataset[order(articleid,time_session_end)] +quality_model <- readRDS("models/ordinal_quality_noFa.RDS") +posterior_coefs <- as.data.table(quality_model) + +f <- function(cols){ + post_qual <- as.matrix(posterior_coefs[,.(b_Stub, b_Start, b_C, b_B, b_GA)]) %*% as.numeric(cols) + list(med_quality = median(post_qual), + mean_quality = mean(post_qual), + sd_quality = sd(post_qual) + ) + +} + +cl <- makeForkCluster(nnodes=26) +res <- rbindlist(parApply(cl,dataset[,.(Stub,Start,C,B,GA)],1,f)) +dataset[,names(res):=res] + +f2 <- function(revscores){ + posterior_quality <- as.matrix(posterior_coefs[,.(b_Stub,b_Start,b_C,b_B,b_GA)]) %*% t(as.matrix(revscores)) + posterior_quality_diff <- apply(posterior_quality, 1, function(x) diff(x,1,1)) + posterior_quality_diff2 <- apply(posterior_quality, 1, function(x) diff(x,1,2)) + list( + mean_quality_diff1 = c(NA,apply(posterior_quality_diff,1,mean)), + sd_quality_diff1 = c(NA,apply(posterior_quality_diff,1,sd)), + median_quality_diff1 = c(NA,apply(posterior_quality_diff,1,median)), + mean_quality_diff2 = c(c(NA,NA),apply(posterior_quality_diff2,1,mean)), + sd_quality_diff2 = c(c(NA,NA),apply(posterior_quality_diff2,1,sd)), + median_quality_diff2 = c(c(NA,NA),apply(posterior_quality_diff2,1,median))) +} + + +dataset[,c("mean_qual_diff1","sd_qual_diff1","median_qual_diff1","mean_qual_diff2","sd_qual_diff2","median_qual_diff2"):=f2(.SD),by=.(articleid),.SDcols=c("Stub","Start","C","B","GA")] + +write_feather(dataset,'data/ordinal_scored_article_sample.feather') + +## in an earlier version I computed the full posterior of quality for the dataset, but it took too much memory. +## Lines below checked (and confirmed) that posteriors were approximately normal. +## we can check that the means and the medians are close as a clue that normality is a good assumptoin +## mean(med_quality/mean_quality) +## mean(med_quality - mean_quality) +## mean((med_quality - mean_quality)^2) + +## ## plot some of the posteriors to check. +## quality_post <- dataset[1:8] +## quality_post <- melt(quality_post) +## p <- ggplot(quality_post, aes(x=value,group=variable)) + geom_histogram(bins=50) + facet_wrap(.~variable) +## ggsave("plots/quality_posterior_normality.pdf",device='pdf') + + diff --git a/analyze_quality_models.R b/analyze_quality_models.R new file mode 100644 index 0000000..077cec6 --- /dev/null +++ b/analyze_quality_models.R @@ -0,0 +1,167 @@ +library(MASS) +library(brms) +options(mc.cores=28) +library(ggplot2) +library(data.table) +library(arrow) +library(wCorr) + +source("RemembR/R/RemembeR.R") + +change.remember.file("ordinal.quality.analysis.RDS") + +#model.1 <- readRDS("models/ordinal_quality_intercept.RDS") +model.main.pca <- readRDS("models/ordinal_quality_pca.RDS") +model.main.pca.cumulative <- readRDS("models/ordinal_quality_pca.cumulative.RDS") +model.qe6 <- readRDS("models/ordinal_quality_qe6.RDS") +df <- readRDS("data/training_quality_labels.RDS") + +# then compare them with loo +comparison.loo <- loo_compare(model.main.pca,model.qe6,model.main.pca.cumulative) +#comparison.waic <- loo_compare(model.main.noC,model.main.noB,model.main.noFa,model.main.noGa,model.main.noStart,model.main.noStub,criterion='waic') +print(comparison.loo,simplify=F,digits=2) +remember(comparison.loo,"comparison.loo") + +# LOO Chooses NoC +best.model <- model.main.pca.cumulative + +pca_features <- readRDS("data/ores_pca_features.RDS") +pca_features_unweighted <- readRDS("data/ores_pca_features.noweights.RDS") + +test.df <- readRDS("data/holdout_quality_labels.RDS") + +wpca_transform <- function(wpca, x){ + x <- as.matrix(x) + centered <- as.matrix(t(t(x) - wpca$means)) + return(centered %*% wpca$basis) +} + +new_pca_features <- wpca_transform(pca_features, test.df[,.(Stub, Start, C, B, GA, FA)]) + +test.df<-test.df[,":="(pca1 = new_pca_features[,1], + pca2 = new_pca_features[,2], + pca3 = new_pca_features[,3], + pca4 = new_pca_features[,4], + pca5 = new_pca_features[,5])] + +unweighted.pca <- wpca_transform(pca_features_unweighted, test.df[,.(Stub, Start, C, B, GA, FA)]) + +test.df <- test.df[,":="(pca1.noweights = unweighted.pca[,1], + pca2.noweights = unweighted.pca[,2], + pca3.noweights = unweighted.pca[,3], + pca4.noweights = unweighted.pca[,4], + pca5.noweights = unweighted.pca[,5], + pca6.noweights = unweighted.pca[,6])] + +draws <- as.data.table(best.model) + +test.df <- test.df[,idx.max:=.(apply(test.df[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +test.df <- test.df[,MPQC:=.(apply(test.df[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] +top.preds <- test.df[,MPQC] + +#ordinal.fitted.1 <- fitted(best.model, test.df, scale='response') +ordinal.fitted <- data.table(fitted(best.model, test.df, scale='linear')) +ordinal.pred <- ordinal.fitted$Estimate +remember(ordinal.fitted,'ordinal.fitted') +ordinal.quality <- ordinal.pred +quality.even6 <- apply(test.df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(0,1,2,3,4,5)) +quality.even5 <- apply(test.df[,.(Stub,Start,B,GA,FA)],1,function(r) r %*% c(1,2,3,4,5)) + +test.df <- test.df[,quality.ordinal := ordinal.quality] +test.df <- test.df[,quality.even6 := quality.even6] + +(spearcor <- weightedCorr(test.df$quality.ordinal, test.df$quality.even6, method='spearman', weights=test.df$article_weight)) +remember(spearcor, 'spearman.corr') +(pearsoncor <- weightedCorr(test.df$quality.ordinal, test.df$quality.even6, method='pearson', weights=test.df$article_weight)) +remember(pearsoncor, 'pearson.corr') + +ordinal.preds <- data.table(predict(best.model, test.df, robust=F)) +#names(ordinal.preds) <- c("Stub","Start","C","B","A","GA","FA") +names(ordinal.preds) <- c("Stub","Start","C","B","GA","FA") +ordinal.preds <- ordinal.preds[,idx.max:=.(apply(ordinal.preds[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +#ordinal.preds <- ordinal.preds[,predicted:=.(apply(ordinal.preds[,.(idx.max)],1,function(idx) c("stub","start","c","b",'a',"ga","fa")[idx]))] +ordinal.preds <- ordinal.preds[,predicted:=.(apply(ordinal.preds[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] +pred.qe6 <- data.table(predict(model.qe6,test.df)) +names(pred.qe6) <- c("Stub","Start","C","B","GA","FA") +pred.qe6 <- pred.qe6[,idx.max:=.(apply(pred.qe6[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +#pred.qe6 <- pred.qe6[,predicted:=.(apply(pred.qe6[,.(idx.max)],1,function(idx) c("stub","start","c","b",'a',"ga","fa")[idx]))] +pred.qe6 <- pred.qe6[,predicted:=.(apply(pred.qe6[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] + +test.df <- test.df[,ordinal.pred := ordinal.preds$predicted] +test.df <- test.df[,pred.qe6 := pred.qe6$predicted] +test.df <- test.df[,idx.max:=.(apply(test.df[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +test.df <- test.df[,MPQC:=.(apply(test.df[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] + +(top.pred.accuracy <- weighted.mean(test.df[,.(MPQC)] == test.df[,.(wp10)],test.df$article_weight)) +remember(top.pred.accuracy, "top.pred.accuracy") +(ordinal.pred.accuracy <- weighted.mean(test.df[,.(ordinal.pred)] == test.df[,.(wp10)], test.df$article_weight)) +remember(ordinal.pred.accuracy, "ordinal.pred.accuracy") +quality.even6 <- apply(df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(1,2,3,4,5,6)) +(pred.qe6.accuracy <- weighted.mean(test.df[,.(pred.qe6)] == test.df[,.(wp10)], test.df$article_weight)) +remember(ordinal.pred.accuracy, "ordinal.pred.accuracy") +remember(best.model, "best.model") +remember(test.df,'test.df') + +ordinal.preds[,wp10:=test.df$wp10] +ordinal.preds[,weight:=test.df$article_weight] +total.weight <- sum(ordinal.preds$weight) +library(modi) +print("Calibration stats 1") +calibration.stats.1 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + +calibration.stats.1[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.1 <- calibration.stats.1[calip.data,on=.(wp10)] + +calibration.stats.1$weighttype <- 'Article weight' + +ordinal.preds[,weight:=test.df$revision_weight] +total.weight <- sum(ordinal.preds$weight) +print("Calibration stats 2") +calibration.stats.2 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + + +calibration.stats.2[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.2 <- calibration.stats.2[calip.data,on=.(wp10)] + +calibration.stats.2$weighttype <- 'Revision weight' + + +ordinal.preds[,weight:=rep(1,nrow(ordinal.preds))] +total.weight <- sum(ordinal.preds$weight) +print("Calibration stats 3") +calibration.stats.3 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + + +calibration.stats.3[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.3 <- calibration.stats.3[calip.data,on=.(wp10)] + +calibration.stats.3$weighttype <- 'No weight' + +calibration.stats <- rbind(calibration.stats.1,calibration.stats.2,calibration.stats.3) + +calibration.stats[,calibration:=prob.data - prob.predicted] + +remember(calibration.stats, "calibration.stats") + + +## p <- ggplot(data.frame(quality.ordinal, quality.even6, quality.even5)) +## p <- p + geom_point(aes(x=quality.even6,y=quality.ordinal)) + geom_smooth(aes(x=quality.even6,y=quality.ordinal)) + +## print(p) +## dev.off() + +## post.pred <- posterior_predict(model.main) +## preds <- as.character(predict(polrmodel)) +## polrmodel.accuracy <- weighted.mean(preds==df$wp10,df$weight) diff --git a/analyze_quality_models_revisions.R b/analyze_quality_models_revisions.R new file mode 100644 index 0000000..74d7f54 --- /dev/null +++ b/analyze_quality_models_revisions.R @@ -0,0 +1,160 @@ +library(MASS) +library(brms) +options(mc.cores=28) +library(ggplot2) +library(data.table) +library(arrow) +library(wCorr) + +source("RemembR/R/RemembeR.R") + +change.remember.file("ordinal.quality.analysis_revisions.RDS") + +#model.1 <- readRDS("models/ordinal_quality_intercept.RDS") +model.main.pca <- readRDS("models/ordinal_quality_pca_revision.RDS") +model.main.pca.cumulative <- readRDS("models/ordinal_quality_pca_revision.cumulative.RDS") +model.qe6 <- readRDS("models/ordinal_quality_qe6_revision.RDS") +df <- readRDS("data/training_quality_labels.RDS") + +# then compare them with loo +comparison.loo <- loo_compare(model.main.pca,model.qe6,model.main.pca.cumulative) +#comparison.waic <- loo_compare(model.main.noC,model.main.noB,model.main.noFa,model.main.noGa,model.main.noStart,model.main.noStub,criterion='waic') +print(comparison.loo,simplify=F,digits=2) +remember(comparison.loo,"comparison.loo") + +# LOO Chooses NoC +best.model <- model.main.pca.cumulative + +pca_features <- readRDS("data/ores_pca_features_revisions.RDS") +pca_features_unweighted <- readRDS("data/ores_pca_features.noweights.RDS") + +test.df <- readRDS("data/holdout_quality_labels.RDS") + +wpca_transform <- function(wpca, x){ + x <- as.matrix(x) + centered <- as.matrix(t(t(x) - wpca$means)) + return(centered %*% wpca$basis) +} + +new_pca_features <- wpca_transform(pca_features, test.df[,.(Stub, Start, C, B, GA, FA)]) + +test.df<-test.df[,":="(pca1.revision = new_pca_features[,1], + pca2.revision = new_pca_features[,2], + pca3.revision = new_pca_features[,3], + pca4.revision = new_pca_features[,4], + pca5.revision = new_pca_features[,5])] + +draws <- as.data.table(best.model) + +test.df <- test.df[,idx.max:=.(apply(test.df[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +test.df <- test.df[,MPQC:=.(apply(test.df[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] +top.preds <- test.df[,MPQC] + +#ordinal.fitted.1 <- fitted(best.model, test.df, scale='response') +ordinal.fitted <- data.table(fitted(best.model, test.df, scale='linear')) +remember(ordinal.fitted,'ordinal.fitted') +ordinal.pred <- ordinal.fitted$Estimate + +quality.ordinal <- ordinal.pred +quality.even6 <- apply(test.df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(0,1,2,3,4,5)) +quality.even5 <- apply(test.df[,.(Stub,Start,B,GA,FA)],1,function(r) r %*% c(1,2,3,4,5)) + +test.df <- test.df[,quality.ordinal := quality.ordinal] +test.df <- test.df[,quality.even6 := quality.even6] + +(spearcor <- weightedCorr(test.df$quality.ordinal, test.df$quality.even6, method='spearman', weights=test.df$revision_weight)) +remember(spearcor, 'spearman.corr') +(pearsoncor <- weightedCorr(test.df$quality.ordinal, test.df$quality.even6, method='pearson', weights=test.df$revision_weight)) +remember(pearsoncor, 'pearson.corr') + +ordinal.preds <- data.table(predict(best.model, test.df, robust=F)) +#names(ordinal.preds) <- c("Stub","Start","C","B","A","GA","FA") +names(ordinal.preds) <- c("Stub","Start","C","B","GA","FA") +ordinal.preds <- ordinal.preds[,idx.max:=.(apply(ordinal.preds[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +#ordinal.preds <- ordinal.preds[,predicted:=.(apply(ordinal.preds[,.(idx.max)],1,function(idx) c("stub","start","c","b",'a',"ga","fa")[idx]))] +ordinal.preds <- ordinal.preds[,predicted:=.(apply(ordinal.preds[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] +pred.qe6 <- data.table(predict(model.qe6,test.df)) +names(pred.qe6) <- c("Stub","Start","C","B","GA","FA") +pred.qe6 <- pred.qe6[,idx.max:=.(apply(pred.qe6[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +#pred.qe6 <- pred.qe6[,predicted:=.(apply(pred.qe6[,.(idx.max)],1,function(idx) c("stub","start","c","b",'a',"ga","fa")[idx]))] +pred.qe6 <- pred.qe6[,predicted:=.(apply(pred.qe6[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] + +test.df <- test.df[,ordinal.pred := ordinal.preds$predicted] +test.df <- test.df[,pred.qe6 := pred.qe6$predicted] +test.df <- test.df[,idx.max:=.(apply(test.df[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +test.df <- test.df[,MPQC:=.(apply(test.df[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] + +(top.pred.accuracy <- weighted.mean(test.df[,.(MPQC)] == test.df[,.(wp10)],test.df$revision_weight)) +remember(top.pred.accuracy, "top.pred.accuracy") +(ordinal.pred.accuracy <- weighted.mean(test.df[,.(ordinal.pred)] == test.df[,.(wp10)], test.df$revision_weight)) +remember(ordinal.pred.accuracy, "ordinal.pred.accuracy") +quality.even6 <- apply(df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(1,2,3,4,5,6)) +(pred.qe6.accuracy <- weighted.mean(test.df[,.(pred.qe6)] == test.df[,.(wp10)], test.df$revision_weight)) +remember(ordinal.pred.accuracy, "ordinal.pred.accuracy") +remember(best.model, "best.model") + +remember(test.df,'test.df') + + +ordinal.preds[,wp10:=test.df$wp10] +ordinal.preds[,weight:=test.df$article_weight] +total.weight <- sum(ordinal.preds$weight) +library(modi) +calibration.stats.1 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + +calibration.stats.1[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.1 <- calibration.stats.1[calip.data,on=.(wp10)] + +calibration.stats.1$weighttype <- 'Article weight' + +ordinal.preds[,weight:=test.df$revision_weight] +total.weight <- sum(ordinal.preds$weight) + +calibration.stats.2 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + + +calibration.stats.2[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.2 <- calibration.stats.2[calip.data,on=.(wp10)] + +calibration.stats.2$weighttype <- 'Revision weight' + + +ordinal.preds[,weight:=rep(1,nrow(ordinal.preds))] +total.weight <- sum(ordinal.preds$weight) + +calibration.stats.3 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + + +calibration.stats.3[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.3 <- calibration.stats.3[calip.data,on=.(wp10)] + +calibration.stats.3$weighttype <- 'No weight' + +calibration.stats <- rbind(calibration.stats.1,calibration.stats.2,calibration.stats.3) + +calibration.stats[,'calibration':=prob.data - prob.predicted] + +remember(calibration.stats, "calibration.stats") + + +## p <- ggplot(data.frame(quality.ordinal, quality.even6, quality.even5)) +## p <- p + geom_point(aes(x=quality.even6,y=quality.ordinal)) + geom_smooth(aes(x=quality.even6,y=quality.ordinal)) + +## print(p) +## dev.off() + +## post.pred <- posterior_predict(model.main) +## preds <- as.character(predict(polrmodel)) +## polrmodel.accuracy <- weighted.mean(preds==df$wp10,df$weight) diff --git a/analyze_quality_models_unweighted.R b/analyze_quality_models_unweighted.R new file mode 100644 index 0000000..80d9f01 --- /dev/null +++ b/analyze_quality_models_unweighted.R @@ -0,0 +1,166 @@ +library(MASS) +library(brms) +options(mc.cores=28) +library(ggplot2) +library(data.table) +library(arrow) +library(wCorr) + +source("RemembR/R/RemembeR.R") + +change.remember.file("ordinal.quality.analysis.noweights.RDS") + +#model.1 <- readRDS("models/ordinal_quality_intercept.RDS") +model.main.pca <- readRDS("models/ordinal_quality_pca.noweights.RDS") +model.main.pca.cumulative <- readRDS("models/ordinal_quality_pca.noweights.cumulative.RDS") +model.qe6 <- readRDS("models/ordinal_quality_qe6.noweights.RDS") +df <- readRDS("data/training_quality_labels.RDS") + +# then compare them with loo +comparison.loo <- loo_compare(model.main.pca,model.qe6,model.main.pca.cumulative) +#comparison.waic <- loo_compare(model.main.noC,model.main.noB,model.main.noFa,model.main.noGa,model.main.noStart,model.main.noStub,criterion='waic') +print(comparison.loo,simplify=F,digits=2) +remember(comparison.loo,"comparison.loo") + +# LOO Chooses NoC +best.model <- model.main.pca.cumulative + +pca_features_unweighted <- readRDS("data/ores_pca_features.noweights.RDS") + +test.df <- readRDS("data/holdout_quality_labels.RDS") + +wpca_transform <- function(wpca, x){ + x <- as.matrix(x) + centered <- as.matrix(t(t(x) - wpca$means)) + return(centered %*% wpca$basis) +} + +unweighted.pca <- wpca_transform(pca_features_unweighted, test.df[,.(Stub, Start, C, B, GA, FA)]) + +test.df <- test.df[,":="(pca1.noweights = unweighted.pca[,1], + pca2.noweights = unweighted.pca[,2], + pca3.noweights = unweighted.pca[,3], + pca4.noweights = unweighted.pca[,4], + pca5.noweights = unweighted.pca[,5], + pca6.noweights = unweighted.pca[,6])] + +draws <- as.data.table(best.model) + +test.df <- test.df[,idx.max:=.(apply(test.df[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +test.df <- test.df[,MPQC:=.(apply(test.df[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] +top.preds <- test.df[,MPQC] + +#ordinal.fitted.1 <- fitted(best.model, test.df, scale='response') +ordinal.fitted <- data.table(fitted(best.model, test.df, scale='linear')) +ordinal.pred <- ordinal.fitted$Estimate +remember(ordinal.fitted,'ordinal.fitted') + +quality.ordinal <- ordinal.pred +quality.even6 <- apply(test.df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(0,1,2,3,4,5)) +quality.even5 <- apply(test.df[,.(Stub,Start,B,GA,FA)],1,function(r) r %*% c(1,2,3,4,5)) + +test.df <- test.df[,quality.ordinal := quality.ordinal] +test.df <- test.df[,quality.even6 := quality.even6] + +(spearcor <- cor(test.df$quality.ordinal, test.df$quality.even6, method='spearman')) +remember(spearcor, 'spearman.corr') +(pearsoncor <- cor(test.df$quality.ordinal, test.df$quality.even6, method='pearson')) +remember(pearsoncor, 'pearson.corr') + +ordinal.preds <- data.table(predict(best.model, test.df, robust=T)) +#names(ordinal.preds) <- c("Stub","Start","C","B","A","GA","FA") +names(ordinal.preds) <- c("Stub","Start","C","B","GA","FA") +ordinal.preds <- ordinal.preds[,idx.max:=.(apply(ordinal.preds[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +#ordinal.preds <- ordinal.preds[,predicted:=.(apply(ordinal.preds[,.(idx.max)],1,function(idx) c("stub","start","c","b",'a',"ga","fa")[idx]))] +ordinal.preds <- ordinal.preds[,predicted:=.(apply(ordinal.preds[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] +pred.qe6 <- data.table(predict(model.qe6,test.df)) +names(pred.qe6) <- c("Stub","Start","C","B","GA","FA") +pred.qe6 <- pred.qe6[,idx.max:=.(apply(pred.qe6[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +#pred.qe6 <- pred.qe6[,predicted:=.(apply(pred.qe6[,.(idx.max)],1,function(idx) c("stub","start","c","b",'a',"ga","fa")[idx]))] +pred.qe6 <- pred.qe6[,predicted:=.(apply(pred.qe6[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] + +test.df <- test.df[,ordinal.pred := ordinal.preds$predicted] +test.df <- test.df[,pred.qe6 := pred.qe6$predicted] +test.df <- test.df[,idx.max:=.(apply(test.df[,.(Stub,Start,C,B,GA,FA)],1,which.max))] +test.df <- test.df[,MPQC:=.(apply(test.df[,.(idx.max)],1,function(idx) c("stub","start","c","b","ga","fa")[idx]))] + +(top.pred.accuracy <- test.df[,mean(MPQC==wp10)]) +remember(top.pred.accuracy, "top.pred.accuracy") +(ordinal.pred.accuracy <- test.df[,mean(ordinal.pred == wp10)]) +remember(ordinal.pred.accuracy, "ordinal.pred.accuracy") +quality.even6 <- apply(df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(1,2,3,4,5,6)) +(pred.qe6.accuracy <- mean(test.df[,.(pred.qe6)] == test.df[,.(wp10)])) +remember(ordinal.pred.accuracy, "ordinal.pred.accuracy") +remember(best.model, "best.model") + +(accuracy.macro <- test.df[,.(top.pred.accuracy = mean(MPQC==wp10), + ordinal.pred.accuracy = mean(ordinal.pred==wp10), + pred.qe6.accuracy = mean(pred.qe6==wp10)),by=.(wp10)]) + +accuracy.macro[,sapply(.SD,mean), .SDcols=c("top.pred.accuracy","ordinal.pred.accuracy","pred.qe6.accuracy")] + + +remember(test.df,'test.df') + + +ordinal.preds[,wp10:=test.df$wp10] +ordinal.preds[,weight:=test.df$article_weight] +total.weight <- sum(ordinal.preds$weight) +library(modi) +calibration.stats.1 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + +calibration.stats.1[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.1 <- calibration.stats.1[calip.data,on=.(wp10)] + +calibration.stats.1$weighttype <- 'Article weight' + +ordinal.preds[,weight:=test.df$revision_weight] +total.weight <- sum(ordinal.preds$weight) + +calibration.stats.2 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + + +calibration.stats.2[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.2 <- calibration.stats.2[calip.data,on=.(wp10)] + +calibration.stats.2$weighttype <- 'Revision weight' + + +ordinal.preds[,weight:=rep(1,nrow(ordinal.preds))] +total.weight <- sum(ordinal.preds$weight) + +calibration.stats.3 <- ordinal.preds[,.(prob.predicted=apply(.SD,2,function(c) weighted.mean(c,weight)), + var.predicted=apply(.SD,2,function(c) weighted.var(c,weight))),.SDcols=c("Stub","Start","C","B","GA","FA")] + + +calibration.stats.3[,wp10:=c("stub","start","c","b","ga","fa")] +calip.data = ordinal.preds[order(wp10),.(prob.data=sum(weight)/total.weight, + var.data=var(weight)/total.weight),by=.(wp10)] + +calibration.stats.3 <- calibration.stats.3[calip.data,on=.(wp10)] + +calibration.stats.3$weighttype <- 'No weight' + +calibration.stats <- rbind(calibration.stats.1,calibration.stats.2,calibration.stats.3) + +calibration.stats[,'calibration':=prob.data - prob.predicted] + +remember(calibration.stats, "calibration.stats") + +## p <- ggplot(data.frame(quality.ordinal, quality.even6, quality.even5)) +## p <- p + geom_point(aes(x=quality.even6,y=quality.ordinal)) + geom_smooth(aes(x=quality.even6,y=quality.ordinal)) + +## print(p) +## dev.off() + +## post.pred <- posterior_predict(model.main) +## preds <- as.character(predict(polrmodel)) +## polrmodel.accuracy <- weighted.mean(preds==df$wp10,df$weight) diff --git a/load_data.R b/load_data.R new file mode 100644 index 0000000..5216a9a --- /dev/null +++ b/load_data.R @@ -0,0 +1,31 @@ +library(MASS) +library(brms) +options(mc.cores=28) + +library(data.table) +library(arrow) + +sample.params <- readRDS("remember_sample_quality_labels.RDS") + +df <- data.table(read_feather("data/scored_article_sample.feather")) +wp10dict <- list('start','stub','c','b','a','ga','fa') +df[,wp10:=wp10dict[wp10]] +df <- df[,wp10:=factor(wp10,levels=c('stub','start','c','b','a','ga','fa'),ordered=TRUE)] +## remove 'a' class articles for a fair comparison. +df <- df[wp10!='a'] +df <- df[,datetime := as.POSIXct(timestamp,format="%Y%m%d%H%M%S")] +df <- df[,datetime.numeric := as.numeric(timestamp)] +df <- df[,datetime.numeric := (datetime.numeric - min(datetime.numeric))] +df <- df[,datetime.numeric := datetime.numeric/max(datetime.numeric)] + +data.counts <- data.table(sample.params$label_sample_counts) +#data.counts <- data.counts[,wp10:=factor(wp10,levels=c('stub','start','c','b','a','ga','fa'),ordered=TRUE)] +data.counts <- data.counts[,wp10:=factor(wp10,levels=c('stub','start','c','b','a','ga','fa'),ordered=TRUE)] +sample.counts <- df[,.(.N),by=.(wp10)][order(wp10)] +#sample.counts <- sample.counts[,wp10:=factor(wp10,levels=c('stub','start','c','b','a','ga','fa'),ordered=TRUE)] +sample.counts <- sample.counts[,wp10:=factor(wp10,levels=c('stub','start','c','b','ga','fa'),ordered=TRUE)] +weights <- data.counts[sample.counts,on=.(wp10)] +weights <- weights[,article_weight:=(n_articles/sum(weights$n_articles))/(N/sum(weights$N))] +weights <- weights[,revision_weight:=(n_revisions/sum(weights$n_revisions))/(N/sum(weights$N))] +df <- df[weights,on=.(wp10)] +df[,quality.even6 := apply(df[,.(Stub,Start,B,C,GA,FA)],1,function(r) r %*% c(1,2,3,4,5,6))] diff --git a/ordinal_quality_models.R b/ordinal_quality_models.R new file mode 100644 index 0000000..99163bc --- /dev/null +++ b/ordinal_quality_models.R @@ -0,0 +1,202 @@ +source("RemembR/R/RemembeR.R") +source("load_data.R") +change.remember.file("ordinal.quality.model.RDS") + +test <- F + +remember(weights, "sample.weights") + +n.holdout <- 4000 +remember(n.holdout,"n.holdout") +holdout <- df[sample(.N,n.holdout)] +saveRDS(holdout,'data/holdout_quality_labels.RDS') +df <- df[!(revid %in% holdout$revid)] +saveRDS(df,'data/training_quality_labels.RDS') + +if(test == TRUE){ + df <- df[sample(.N,2000)] +} + +## So it turns out that the 6 predictors we have are highly correlated creating problems for sampling so use QR decomposition +df <- df[!is.na(wp10)] + +df[, start.p.stub := Start + Stub] + +saveRDS(df,"data/training_quality_labels.RDS") + +## So it turns out that the 6 predictors we have are highly correlated creating problems for sampling so use QR decomposition +df <- df[!is.na(wp10)] + +df[, start.p.stub := Start + Stub] + +fam.cloglog <- sratio(link='cloglog', threshold='flexible') +#formula.1 <- brmsformula(wp10 | weights(weight) ~ 1,decomp='QR',center=TRUE) + +fam <- sratio(link='logit', threshold='flexible') +fam.cumulative <- sratio(link='logit', threshold='flexible') + +## It turns out that the matrix is singular if we include all the predictors. +## C is the most correlated with the other variables so for now let's remove it. + +## it turns out that we don't need to do model selection at all since we don't care about the coefficients. +## we can just do the csv! +x <- df[,.(Stub,Start,C,B,GA,FA)] + +wpca <- function(x, weight){ + name <- names(x) + x <- as.matrix(x) + means <- unlist(lapply(1:dim(x)[2], function(i) weighted.mean(x[,i], weight))) + names(means) <- name + centered <- as.matrix(t(t(x) - means)) + weightmat <- diag(weight) + covmat <- t(centered) %*% weightmat %*% centered / (sum(weight) - 1) + + factors <- eigen(covmat) + basis <- factors$vectors + result <- centered %*% basis + # return a list with the info we need to do the transformation + return(list(means=means, basis=basis, x=result)) +} + +#unweighted.pca <- wpca(df[,.(Stub,Start,C,B,GA,FA)],rep(1,nrow(df))) +upca <- prcomp(df[,.(Stub,Start,C,B,GA,FA)]) +unweighted.pca <- list(means = upca$center, basis=upca$rotation, x=upca$x) +saveRDS(unweighted.pca,"data/ores_pca_features.noweights.RDS") + +weighted.pca <- wpca(df[,.(Stub,Start,C,B,GA,FA)],df$article_weight) +saveRDS(weighted.pca, "data/ores_pca_features.RDS") + +revision.pca <- wpca(df[,.(Stub,Start,C,B,GA,FA)],df$revision_weight) +saveRDS(revision.pca, "data/ores_pca_features_revisions.RDS") + +df <- df[,":="(pca1 = weighted.pca$x[,1], + pca2 = weighted.pca$x[,2], + pca3 = weighted.pca$x[,3], + pca4 = weighted.pca$x[,4], + pca5 = weighted.pca$x[,5], + pca6 = weighted.pca$x[,6])] + +df <- df[,":="(pca1.revision = revision.pca$x[,1], + pca2.revision = revision.pca$x[,2], + pca3.revision = revision.pca$x[,3], + pca4.revision = revision.pca$x[,4], + pca5.revision = revision.pca$x[,5], + pca6.revision = revision.pca$x[,6])] + +df <- df[,":="(pca1.noweights = unweighted.pca$x[,1], + pca2.noweights = unweighted.pca$x[,2], + pca3.noweights = unweighted.pca$x[,3], + pca4.noweights = unweighted.pca$x[,4], + pca5.noweights = unweighted.pca$x[,5], + pca6.noweights = unweighted.pca$x[,6])] + +qformula.main.pca.cs <- brmsformula(wp10 | weights(article_weight) ~ cs(pca1) + cs(pca2) + cs(pca3) + cs(pca4) + cs(pca5)) +formula.main.pca.noweights.cs <- brmsformula(wp10 ~ cs(pca1.noweights) + cs(pca2.noweights) + cs(pca3.noweights) + cs(pca4.noweights) + cs(pca5.noweights)) +formula.revision.pca.cs <- brmsformula(wp10 | weights(revision_weight) ~ cs(pca1.revision) + cs(pca2.revision) + cs(pca3.revision) + cs(pca4.revision) + cs(pca5.revision)) +formula.qe6.cs <- brmsformula(wp10 | weights(article_weight) ~ cs(quality.even6)) +formula.qe6.revision.cs <- brmsformula(wp10 | weights(revision_weight) ~ cs(quality.even6)) +formula.qe6.noweights.cs <- brmsformula(wp10 ~ cs(quality.even6)) + +formula.main.pca <- brmsformula(wp10 | weights(article_weight) ~ pca1 + pca2 + pca3 + pca4 + pca5) +formula.main.pca.noweights <- brmsformula(wp10 ~ pca1.noweights + pca2.noweights + pca3.noweights + pca4.noweights + pca5.noweights) +formula.revision.pca <- brmsformula(wp10 | weights(revision_weight) ~ pca1.revision + pca2.revision + pca3.revision + pca4.revision + pca5.revision) +formula.qe6 <- brmsformula(wp10 | weights(article_weight) ~ quality.even6) +formula.qe6.revision <- brmsformula(wp10 | weights(revision_weight) ~ quality.even6) +formula.qe6.noweights <- brmsformula(wp10 ~ quality.even6) + +formula.scores.noweights <- brmsformula(wp10 ~ Start + Stub + GA + FA + B) + + +library(future) +library(parallel) +options(mc.cores = parallel::detectCores()) + +plan(lapply(1:7,function(x) tweak(multisession, workers=4))) + +model.main.pca %<-% brm(formula=formula.main.pca, data=df, family=fam, control=list(max_treedepth=15), future=TRUE, save_pars=save_pars(all=TRUE)) +model.qe6 %<-% brm(formula.qe6, data=df, family=fam, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) + +model.main.revision %<-% brm(formula=formula.revision.pca, data=df, family=fam, control=list(max_treedepth=15), future=TRUE, save_pars=save_pars(all=TRUE)) + +model.qe6.revision %<-% brm(formula.qe6.revision, data=df, family=fam, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) +model.qe6.noweights %<-% brm(formula.qe6.noweights, data=df, family=fam, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) +model.main.pca.noweights %<-% brm(formula=formula.main.pca.noweights, data=df, family=fam, control=list(max_treedepth=15), future=TRUE,save_pars=save_pars(all=TRUE)) + +## model.main.pca.cs %<-% brm(formula=formula.main.pca.cs, data=df, family=fam, control=list(max_treedepth=15), future=TRUE, save_pars=save_pars(all=TRUE)) +## model.qe6.cs %<-% brm(formula.qe6.cs, data=df, family=fam, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) + +## model.main.revision.cs %<-% brm(formula=formula.revision.pca.cs, data=df, family=fam, control=list(max_treedepth=15), future=TRUE, save_pars=save_pars(all=TRUE)) + +## model.qe6.revision.cs %<-% brm(formula.qe6.revision.cs, data=df, family=fam, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) +## model.qe6.noweights.cs %<-% brm(formula.qe6.noweights.cs, data=df, family=fam, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) +## model.main.pca.noweights.cs %<-% brm(formula=formula.main.pca.noweights.cs, data=df, family=fam, control=list(max_treedepth=15), future=TRUE,save_pars=save_pars(all=TRUE)) + +model.main.pca.cumulative %<-% brm(formula=formula.main.pca, data=df, family=fam.cumulative, control=list(max_treedepth=15), future=TRUE, save_pars=save_pars(all=TRUE)) +model.qe6.cumulative %<-% brm(formula.qe6, data=df, family=fam.cumulative, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) + +model.main.revision.cumulative %<-% brm(formula=formula.revision.pca, data=df, family=fam.cumulative, control=list(max_treedepth=15), future=TRUE, save_pars=save_pars(all=TRUE)) + +model.qe6.revision.cumulative %<-% brm(formula.qe6.revision, data=df, family=fam.cumulative, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) +model.qe6.noweights.cumulative %<-% brm(formula.qe6.noweights, data=df, family=fam.cumulative, control=list(max_treedepth=15),future=TRUE,save_pars=save_pars(all=TRUE)) +model.main.pca.noweights.cumulative %<-% brm(formula=formula.main.pca.noweights, data=df, family=fam.cumulative, control=list(max_treedepth=15), future=TRUE,save_pars=save_pars(all=TRUE)) + + +#model.scores.noweights <- brm(formula=formula.scores.noweights, data=df, family=fam, control=list(max_treedepth=15), future=TRUE,save_pars=save_pars(all=TRUE)) + +models <- resolve(globalenv(),result=F) +print("adding loo") + +model.main.revision <- add_criterion(model.main.revision,'loo',moment_match=T) +model.main.pca <- add_criterion(model.main.pca,'loo',moment_match=T) +model.qe6.revision <- add_criterion(model.qe6.revision,'loo') +model.qe6 <- add_criterion(model.qe6,'loo') +model.main.pca.noweights <- add_criterion(model.main.pca.noweights,'loo',moment_match=T) +model.qe6.noweights <- add_criterion(model.qe6.noweights,'loo') + +model.main.revision.cumulative <- add_criterion(model.main.revision.cumulative,'loo',moment_match=T) +model.main.pca.cumulative <- add_criterion(model.main.pca.cumulative,'loo',moment_match=T) +model.qe6.revision.cumulative <- add_criterion(model.qe6.revision.cumulative,'loo') +model.qe6.cumulative <- add_criterion(model.qe6.cumulative,'loo') +model.main.pca.noweights.cumulative <- add_criterion(model.main.pca.noweights.cumulative,'loo',moment_match=T) +model.qe6.noweights.cumulative <- add_criterion(model.qe6.noweights.cumulative,'loo') + + +## model.main.revision.cs <- add_criterion(model.main.revision.cs,'loo',moment_match=T) +## model.main.pca.cs <- add_criterion(model.main.pca.cs,'loo',moment_match=T) +## model.qe6.revision.cs <- add_criterion(model.qe6.revision.cs,'loo') +## model.qe6.cs <- add_criterion(model.qe6.cs,'loo') +## model.main.pca.noweights.cs <- add_criterion(model.main.pca.noweights.cs,'loo',moment_match=T) +## model.qe6.noweights.cs <- add_criterion(model.qe6.noweights.cs,'loo') + +saveRDS(model.qe6.revision,"models/ordinal_quality_qe6_revision.RDS") +saveRDS(model.qe6,"models/ordinal_quality_qe6.RDS") +saveRDS(model.main.pca.noweights,"models/ordinal_quality_pca.noweights.RDS") +saveRDS(model.qe6.noweights,"models/ordinal_quality_qe6.noweights.RDS") +saveRDS(model.main.pca,"models/ordinal_quality_pca.RDS") +saveRDS(model.main.revision,"models/ordinal_quality_pca_revision.RDS") + +saveRDS(model.qe6.revision.cumulative,"models/ordinal_quality_qe6_revision.cumulative.RDS") +saveRDS(model.qe6.cumulative,"models/ordinal_quality_qe6.cumulative.RDS") +saveRDS(model.main.pca.noweights.cumulative,"models/ordinal_quality_pca.noweights.cumulative.RDS") +saveRDS(model.qe6.noweights.cumulative,"models/ordinal_quality_qe6.noweights.cumulative.RDS") +saveRDS(model.main.pca.cumulative,"models/ordinal_quality_pca.cumulative.RDS") +saveRDS(model.main.revision.cumulative,"models/ordinal_quality_pca_revision.cumulative.RDS") + +## saveRDS(model.qe6.revision.cs,"models/ordinal_quality_qe6_revision.RDS") +## saveRDS(model.qe6.cs,"models/ordinal_quality_qe6.RDS") +## saveRDS(model.main.pca.noweights.cs,"models/ordinal_quality_pca.noweights.RDS") +## saveRDS(model.qe6.noweights.cs,"models/ordinal_quality_qe6.noweights.RDS") +## saveRDS(model.main.pca.cs,"models/ordinal_quality_pca.RDS") +## saveRDS(model.main.revision.cs,"models/ordinal_quality_pca_revision.RDS") + + + +models <- resolve(globalenv(),result=F) + + + + + + + + diff --git a/ores_score_sample.sh b/ores_score_sample.sh new file mode 100755 index 0000000..0e05e54 --- /dev/null +++ b/ores_score_sample.sh @@ -0,0 +1,2 @@ +#!/bin/bash +python3 ores_scores_sample.py --sample_file="/data/nti9383home/production_functions/data/20200301_article_labelings_sample.feather" --output=/data/nti9383home/production_functions/data/scored_article_sample.feather diff --git a/ores_scores_sample.py b/ores_scores_sample.py new file mode 100644 index 0000000..b881e4c --- /dev/null +++ b/ores_scores_sample.py @@ -0,0 +1,97 @@ +import mwapi +from revscoring import Model +import articlequality +import pyarrow +import pandas as pd +import scoring_utils +from itertools import chain, zip_longest +from multiprocessing import Pool +from functools import partial +from pyRemembeR import Remember +import fire +from pathlib import Path +import tqdm +remember = Remember("score_sample_articles.RDS") + +def get_revision_text(revid_batch, api): + revid_batch = filter(lambda rid: rid is not None, revid_batch) + doc = api.get(action='query', + prop='revisions', + revids=revid_batch, + rvprop=['ids','content'], + rvslots=['main']) + pages = doc.get('query',{}).get('pages',{}) + for pageid, doc in pages.items(): + revisions = doc.get('revisions',[]) + for revision in revisions: + text = revision.get('slots',{}).get('main',{}).get('*',{}) + yield {'revid':revision.get('revid',{}), 'text':text} + +def grouper(n, iterable, fillvalue=None): + "grouper(3, 'ABCDEFG', 'x') --> ABC DEF Gxx" + args = [iter(iterable)] * n + return zip_longest(fillvalue=fillvalue, *args) + +def pull_revision_texts(revids, api, api_batch_size): + batches = grouper(api_batch_size,revids) + get_revision_text_2 = partial(get_revision_text,api=api) + revs = chain(* map(get_revision_text_2, batches)) + yield from revs + +def score_revisions(revids, api, api_batch_size=50, parallel=True): + + revs = pull_revision_texts(revids, api, api_batch_size) + + ncores = 28 + pool = Pool(ncores) + scorer_model = Model.load(open('articlequality/models/enwiki.nettrom_wp10.gradient_boosting.model', 'rb')) + add_score = partial(scoring_utils.add_score, scorer_model=scorer_model) + + if parallel: + ncores = 48 + pool = Pool(ncores) + + revs = pool.imap_unordered(add_score, revs, chunksize = api_batch_size*4) + else: + revs = map(add_score,revs) + + to_pddict = partial(scoring_utils.to_pddict,kept_keys=['revid']) + revs = map(to_pddict, revs) + yield from revs + +#sample_file_parquet = "data/article_sample_set.parquet"; output_feather="data/scored_article_sample.feather"; + +sample_file="/data/nti9383home/production_functions/data/20200301_article_labelings_sample.feather";output="/data/nti9383home/production_functions/data/scored_article_sample.feather" + +def score_sample(sample_file = "data/article_sample_set.feather", output="data/scored_article_sample.feather"): + + sample = pd.read_feather(sample_file) + + revids = set(sample.revid) + user_agent = "Nate TeBlunthuis . What's the relationship between contributors and article quality?" + api = mwapi.Session("https://en.wikipedia.org",user_agent=user_agent) + + scores = tqdm.tqdm(score_revisions(revids, api, 50, True),total=len(revids),miniters=100,smoothing=0.2) + + p = Path(output) + output_csv = Path(str(p).replace("".join(p.suffixes), ".csv")) + output_json = Path(str(p).replace("".join(p.suffixes), ".json")) + output_feather = Path(str(p).replace("".join(p.suffixes), ".feather")) + + saved_scores = list() + with open(output_json,'w') as of: + for score in scores: + of.write(str(score) + '\n') + saved_scores.append(score) + + + scored_revids = pd.DataFrame(saved_scores) + sample_1 = sample.merge(scored_revids,left_on="revid",right_on="revid") + remember(sample_1.shape[0],"sample_size_unscored") + + remember(sample_1.shape[0],"sample_size_scored") + sample_1.to_feather(output_feather) + sample_1.to_csv(output_csv) + +if __name__ == "__main__": + fire.Fire(score_sample) diff --git a/run_ordinal_quality.sh b/run_ordinal_quality.sh new file mode 100755 index 0000000..1c43760 --- /dev/null +++ b/run_ordinal_quality.sh @@ -0,0 +1,5 @@ +#!/bin/bash +Rscript ordinal_quality_models.R && \ + Rscript analyze_quality_models.R && \ + Rscript analyze_quality_models_unweighted.R + Rscript analyze_quality_models_revisions.R diff --git a/run_wikiq.tar.gz b/run_wikiq.tar.gz new file mode 100644 index 0000000..cdb1ea4 Binary files /dev/null and b/run_wikiq.tar.gz differ diff --git a/sample_training_labels.py b/sample_training_labels.py new file mode 100755 index 0000000..bb3db8c --- /dev/null +++ b/sample_training_labels.py @@ -0,0 +1,348 @@ +#!/usr/bin/env python3 + +''' +Take a stratified sample of article quality labels. + +For now we just stratify by label type. +Later we might add date. +Later we might stratify by wikiproject too. + +A key limitation of this approach is that we can sample on the level of the page. +We'd really like to be able to sample on the level of edit session. +But that isn't possible because of how article assessments work. +''' +from itertools import islice, chain +from pathlib import Path +import pandas as pd +import numpy as np +random = np.random.RandomState(1968) +import json +import pyarrow.feather as feather +import fire +from collections import Counter +from pyRemembeR import Remember +from enum import IntEnum, unique +from datetime import datetime +from dataclasses import dataclass, asdict +from multiprocessing import Pool +from urllib.parse import unquote +from pyspark.sql import functions as f +from pyspark.sql import SparkSession, Window +from pyspark.sql.functions import udf +from pyspark.sql.types import StringType +from numpy import dtype +import csv + +def wikiq_to_parquet(): + + path = Path("/gscratch/comdata/users/nathante/wikiqRunning/wikiq_output/") + outpath = Path("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante_parquet/") + files = list(map(Path,path.glob("*.tsv"))) + dumpfile = files[0] + + def wikiq_tsv_to_parquet(dumpfile, outpath = Path("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante.parquet/")): + outfile = outpath / (dumpfile.name + ".parquet") + outpath.mkdir(parents=True, exist_ok=True) + _wikiq_tsv_to_parquet(dumpfile,outfile) + + dumpfile = Path("/gscratch/comdata/users/nathante/wikiqRunning/wikiq_output/enwiki-20200301-pages-meta-history12-p4980874p5038451.tsv") + + def _wikiq_tsv_to_parquet(dumpfile, outfile): + + dtypes = {'anon': dtype('O'), 'articleid': dtype('int64'), 'deleted': dtype('bool'), 'editor': dtype('O'), 'editor_id': dtype('float64'), 'minor': dtype('bool'), 'namespace': dtype('int64'), 'revert': dtype('O'), 'reverteds': dtype('O'), 'revid': dtype('int64'), 'sha1': dtype('O'), 'text_chars': dtype('float64'), 'title': dtype('O')} + + print(dumpfile) + df = pd.read_csv(dumpfile,sep='\t',quoting=csv.QUOTE_NONE,error_bad_lines=False, warn_bad_lines=True,parse_dates=['date_time'],dtype=dtypes) + + df.to_parquet(outfile) + + with Pool(28) as pool: + jobs = pool.imap_unordered(wikiq_tsv_to_parquet, files) + list(jobs) + + spark = SparkSession.builder.getOrCreate() + + @udf(StringType()) + def decode_strip_udf(val): + if val is None: + return "" + else: + return unquote(val).strip('\"') + df = spark.read.parquet('/gscratch/comdata/output/wikiq_enwiki_20200301_nathante.parquet') + df = df.withColumnRenamed("anon","anonRaw") + df = df.withColumn("anon",f.when(f.col("anonRaw")=="TRUE",True).otherwise(False)) + df = df.drop("anonRaw") + df = df.withColumnRenamed("text_chars","text_chars_raw") + df = df.withColumn("text_chars",f.col("text_chars_raw").cast('int')) + df = df.drop("text_chars_raw") + df = df.withColumnRenamed("editor_id",'editor_id_raw') + df = df.withColumn("editor_id",f.col("editor_id_raw").cast("int")) + df = df.drop("editor_id_raw") + df = df.withColumnRenamed("revert","revert_raw") + df = df.withColumn("revert",f.when(f.col("revert_raw")=="TRUE",True).otherwise(False)) + df = df.drop("revert_raw") + df = df.withColumnRenamed("title","title_raw") + df = df.withColumn("title", decode_strip_udf(f.col("title_raw"))) + df = df.drop("title_raw") + df = df.withColumnRenamed("editor","editor_raw") + df = df.withColumn("editor", decode_strip_udf(f.col("editor_raw"))) + df = df.drop("editor_raw") + df = df.repartition(400,'articleid') + df.write.parquet("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante_partitioned.parquet",mode='overwrite') + +@unique +class WP10(IntEnum): + start = 1 + stub = 2 + c = 3 + b = 4 + a = 5 + ga = 6 + fa = 7 + + @staticmethod + def from_string(s): + return {'start':WP10.start, + 'stub':WP10.stub, + 'c':WP10.c, + 'b':WP10.b, + 'a':WP10.a, + 'ga':WP10.ga, + 'fa':WP10.fa}.get(s,None) + + def to_string(self): + return {WP10.start:'start', + WP10.stub:'stub', + WP10.c:'c', + WP10.b:'b', + WP10.a:'a', + WP10.ga:'ga', + WP10.fa:'fa'}[self] + + +@dataclass +class PageLabel: + timestamp:datetime + wp10:WP10 + + @staticmethod + def from_json(obj): + timestamp = obj.get('timestamp',None) + if timestamp is not None: + timestamp = datetime.strptime(obj['timestamp'],'%Y%m%d%H%M%S') + else: + timestamp = None + + return PageLabel(timestamp=timestamp, + wp10=WP10.from_string(obj.get('wp10'))) + + @staticmethod + def from_row(row): + return PageLabel(timestamp = row.timestamp, + wp10 = WP10(row.wp10)) + + def to_json(self): + d = asdict(self) + + if self.timestamp is not None: + d['timestamp'] = self.timestamp.strftime('%Y%m%d%H%M%S') + + if self.wp10 is not None: + d['wp10'] = self.wp10.to_string() + + return json.dumps(d) + +@dataclass +class TalkPageLabel(PageLabel): + dump_talk_page_title:str + talk_page_id:int + project:str + + @staticmethod + def from_json(obj): + res = PageLabel.from_json(obj) + + return TalkPageLabel(dump_talk_page_title=obj.get('dump_talk_page_title',None), + talk_page_id=obj.get('talk_page_id',None), + project=obj.get("project",None), + **asdict(res) + ) + @staticmethod + def from_row(row): + res = PageLabel.from_row(row) + return TalkPageLabel(dump_talk_page_title = row.dump_talk_page_title, + talk_page_id = row.talk_page_id, + project = row.project + **asdict(res)) + + + +@dataclass +class ArticlePageLabel(PageLabel): + '''class representing labels to a page''' + title: str + articleid: int + revid:int + + @staticmethod + def from_json(obj): + res = PageLabel.from_json(obj) + + return ArticlePageLabel(title=obj.get('title',None), + articleid=obj.get('articleid',None), + **asdict(res) + ) + + @staticmethod + def from_row(row): + res = PageLabel.from_row(row) + return ArticlePageLabel(title = row.title, + articleid = row.articleid, + revid = row.revid, + **asdict(res)) + +infiles="enwiki-20200301-pages-meta-history*.xml-p*.7z_article_labelings.json"; samplesize=5000*7 + +def main(infiles="enwiki-20200301-pages-meta-history*.xml-p*.7z_article_labelings.json", samplesize=5000*7): + path = Path('data') + infiles = path.glob(infiles) + + pool = Pool(28) + + lines = chain(* map(lambda f: open(f,'r'), infiles)) + + parsed = pool.imap_unordered(json.loads, lines, chunksize=int(1e3)) + formatted = pool.imap_unordered(TalkPageLabel.from_json, parsed, chunksize=int(1e3)) + dicted = pool.imap_unordered(asdict,formatted, chunksize=int(1e3)) + + # data frame of the the latest labels. + df = pd.DataFrame(dicted) + + df = df.loc[df.timestamp <= datetime(2019,1,1)] + + groups = df.groupby(["talk_page_id"]) + max_labels = groups.wp10.max().reset_index() + + df2 = pd.merge(df,max_labels,on=['talk_page_id','wp10'],how='right') + last_timestamp = df2.groupby(['talk_page_id']).timestamp.max().reset_index() + + df2 = pd.merge(df2, last_timestamp, on=['talk_page_id','timestamp'], how='right') + first_project = df2.groupby(['talk_page_id']).project.first() + df2 = pd.merge(df2, first_project,on=['talk_page_id','project'], how='right') + + tpid = df2 + + #.wp10.max().reset_index() + tpid = tpid.loc[~tpid.dump_talk_page_title.isna()] + + # pick out just the samples we want. + spark = SparkSession.builder.getOrCreate() + + sparkdf = spark.read.parquet("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante_partitioned.parquet") + + tpid['timestamp'] = tpid['timestamp'].dt.tz_localize('utc') + labels = spark.createDataFrame(tpid) + talks = sparkdf.filter(sparkdf.namespace==1) + articles = sparkdf.filter(sparkdf.namespace==0) + + # labels = labels.join(talks,on=[labels.talk_page_id == talks.articleid],how='left_outer') + + talks = talks.join(labels,on=[labels.talk_page_id == talks.articleid]) + + #talks.filter(talks.wp10==7).select('talk_page_id').distinct().count() + + talks = talks.withColumn('timediff', f.datediff(talks.timestamp, talks.date_time)) + + talks = talks.filter(talks.timediff <= 0) + + win = Window.partitionBy("talk_page_id") + talks = talks.withColumn('best_timediff', f.max('timediff').over(win)) + talks = talks.filter(talks.timediff == talks.best_timediff) + + talks = talks.withColumn('article_title',f.substring_index(f.col("title"),':',-1)) + talks = talks.select(['article_title','wp10',f.col('timestamp').alias('timestamp'),'talk_page_id']).distinct() + + articles = articles.join(talks,on=[talks.article_title == articles.title]) + + articles = articles.withColumn('timediff', f.datediff(articles.timestamp, articles.date_time)) + articles = articles.filter(articles.timediff <= 0) + + win2 = Window.partitionBy("articleid") + articles = articles.filter(f.col("revert")==False) + articles = articles.withColumn('best_timediff', f.max('timediff').over(win2)) + articles = articles.filter(articles.timediff == articles.best_timediff) + articles = articles.select(['revid','timestamp','wp10','articleid','title']) + + articles = articles.groupby(['timestamp','wp10','articleid','title']).agg(f.first(f.col("revid")).alias("revid")) + + articles.write.parquet("data/article_quality_data.parquet",mode='overwrite') + + tpid = pd.read_parquet("data/article_quality_data.parquet") + + # we want to sample /papges/ not /labels/. + # so we need to do a /full/ groupby pages. + # this is why we have a lot of RAM! + # we need the number of + label_counts = {} + sample_page_ids = {} + label_max_samplesize = int(samplesize / len(WP10)) + sample_chunks = [] + + for lab in WP10: + print(lab) + page_ids = tpid.loc[tpid.wp10==lab].articleid + label_counts[lab] = len(page_ids) + print(lab,label_counts) + if(label_counts[lab] <= label_max_samplesize): + sample_page_ids[lab] = page_ids + else: + sample_page_ids[lab] = random.choice(page_ids,label_max_samplesize,replace=False) + + # get the labels for each sampled article + sample_data_lab = tpid.loc[(tpid.articleid.isin(sample_page_ids[lab]))] + + sample_chunks.append(sample_data_lab) + + remember = Remember(f='remember_sample_quality_labels.RDS') + + remember(label_max_samplesize, 'label_max_samplesize') + + + # Note that different wikiprojects can have different labels + sample = pd.concat(sample_chunks,ignore_index=True) + + revisions_per_article = sparkdf.filter(sparkdf.namespace==0).select(['revid','articleid','date_time','title']) + revisions_per_article = revisions_per_article.filter(f.col("date_time") >= datetime(2019,1,1)) + revisions_per_article = revisions_per_article.filter(f.col("date_time") <= datetime(2019,12,31)) + revisions_per_article = revisions_per_article.groupby(["articleid",'title']).count().toPandas() + + revisions_per_article['title'] = revisions_per_article.title.apply(lambda s: unquote(s).strip('\"')) + + revisions_per_article = pd.merge(revisions_per_article,tpid,left_on='articleid',right_on='articleid') + + revisions_per_class = revisions_per_article.groupby('wp10').agg({'count':'sum'}).reset_index() + revisions_per_class['wp10'] = revisions_per_class.wp10.apply(lambda s: WP10(s).to_string()) + + label_counts = pd.DataFrame({'wp10':map(lambda x: x.to_string(),label_counts.keys()),'n_articles':label_counts.values()}) + label_counts = pd.merge(label_counts,revisions_per_class,left_on='wp10',right_on='wp10') + label_counts = label_counts.rename(columns={'count':'n_revisions'}) + + remember(label_counts, 'label_sample_counts') + + sample.to_feather("data/20200301_article_labelings_sample.feather") + + sample = pd.read_feather("data/20200301_article_labelings_sample.feather") + sample_counts = sample.articleid.groupby(sample.wp10).count().reset_index() + remember(sample_counts,'sample_counts') + + sample_labels = sample.apply(ArticlePageLabel.from_row,axis=1) + sample_labels = map(PageLabel.to_json, sample_labels) + + with open("data/20200301_article_labelings_sample.json",'w') as of: + of.writelines((l + '\n' for l in sample_labels)) + + pool.close() + +if __name__ == "__main__": + fire.Fire(main) + diff --git a/score_sample_articles.RDS b/score_sample_articles.RDS new file mode 120000 index 0000000..b8c1293 --- /dev/null +++ b/score_sample_articles.RDS @@ -0,0 +1 @@ +.git/annex/objects/J8/FP/SHA256E-s123--ca8ebf4d8748b52e9edeca96f14f4132042c8039a4d6376ffa87033adc36d8cb.RDS/SHA256E-s123--ca8ebf4d8748b52e9edeca96f14f4132042c8039a4d6376ffa87033adc36d8cb.RDS \ No newline at end of file diff --git a/wikiq b/wikiq new file mode 100755 index 0000000..0543a33 --- /dev/null +++ b/wikiq @@ -0,0 +1,573 @@ +#!/usr/bin/env python3 + +# original wikiq headers are: title articleid revid date_time anon +# editor editor_id minor text_size text_entropy text_md5 reversion +# additions_size deletions_size + +import argparse +import sys +import os, os.path +import re + +from subprocess import Popen, PIPE +from collections import deque +from hashlib import sha1 + +from mwxml import Dump + +from deltas.tokenizers import wikitext_split +import mwpersistence +import mwreverts +from urllib.parse import quote +TO_ENCODE = ('title', 'editor') +PERSISTENCE_RADIUS=7 +from deltas import SequenceMatcher +from deltas import SegmentMatcher + +class PersistMethod: + none = 0 + sequence = 1 + segment = 2 + legacy = 3 + +def calculate_persistence(tokens_added): + return(sum([(len(x.revisions)-1) for x in tokens_added]), + len(tokens_added)) + + +class WikiqIterator(): + def __init__(self, fh, collapse_user=False): + self.fh = fh + self.collapse_user = collapse_user + self.mwiterator = Dump.from_file(self.fh) + self.namespace_map = { ns.id : ns.name for ns in + self.mwiterator.site_info.namespaces } + self.__pages = self.load_pages() + + def load_pages(self): + for page in self.mwiterator: + yield WikiqPage(page, + namespace_map = self.namespace_map, + collapse_user=self.collapse_user) + + def __iter__(self): + return self.__pages + + def __next__(self): + return next(self._pages) + +class WikiqPage(): + __slots__ = ('id', 'title', 'namespace', 'redirect', + 'restrictions', 'mwpage', '__revisions', + 'collapse_user') + + def __init__(self, page, namespace_map, collapse_user=False): + self.id = page.id + self.namespace = page.namespace + # following mwxml, we assume namespace 0 in cases where + # page.namespace is inconsistent with namespace_map + if page.namespace not in namespace_map: + self.title = page.title + page.namespace = 0 + if page.namespace != 0: + self.title = ':'.join([namespace_map[page.namespace], page.title]) + else: + self.title = page.title + self.restrictions = page.restrictions + self.collapse_user = collapse_user + self.mwpage = page + self.__revisions = self.rev_list() + + def rev_list(self): + # Outline for how we want to handle collapse_user=True + # iteration rev.user prev_rev.user add prev_rev? + # 0 A None Never + # 1 A A False + # 2 B A True + # 3 A B True + # 4 A A False + # Post-loop A Always + for i, rev in enumerate(self.mwpage): + # never yield the first time + if i == 0: + if self.collapse_user: + collapsed_revs = 1 + rev.collapsed_revs = collapsed_revs + + else: + if self.collapse_user: + # yield if this is the last edit in a seq by a user and reset + # also yield if we do know who the user is + + if rev.deleted.user or prev_rev.deleted.user: + yield prev_rev + collapsed_revs = 1 + rev.collapsed_revs = collapsed_revs + + elif not rev.user.text == prev_rev.user.text: + yield prev_rev + collapsed_revs = 1 + rev.collapsed_revs = collapsed_revs + # otherwise, add one to the counter + else: + collapsed_revs += 1 + rev.collapsed_revs = collapsed_revs + # if collapse_user is false, we always yield + else: + yield prev_rev + + prev_rev = rev + + # also yield the final time + yield prev_rev + + def __iter__(self): + return self.__revisions + + def __next__(self): + return next(self.__revisions) + + +class RegexPair(object): + def __init__(self, pattern, label): + self.pattern = re.compile(pattern) + self.label = label + self.has_groups = bool(self.pattern.groupindex) + if self.has_groups: + self.capture_groups = list(self.pattern.groupindex.keys()) + + def _make_key(self, cap_group): + return ("{}_{}".format(self.label, cap_group)) + + def matchmake(self, content, rev_data): + + temp_dict = {} + # if there are named capture groups in the regex + if self.has_groups: + + # if there are matches of some sort in this revision content, fill the lists for each cap_group + if self.pattern.search(content) is not None: + m = self.pattern.finditer(content) + matchobjects = list(m) + + for cap_group in self.capture_groups: + key = self._make_key(cap_group) + temp_list = [] + for match in matchobjects: + # we only want to add the match for the capture group if the match is not None + if match.group(cap_group) != None: + temp_list.append(match.group(cap_group)) + + # if temp_list of matches is empty just make that column None + if len(temp_list)==0: + temp_dict[key] = None + # else we put in the list we made in the for-loop above + else: + temp_dict[key] = ', '.join(temp_list) + + # there are no matches at all in this revision content, we default values to None + else: + for cap_group in self.capture_groups: + key = self._make_key(cap_group) + temp_dict[key] = None + + # there are no capture groups, we just search for all the matches of the regex + else: + #given that there are matches to be made + if self.pattern.search(content) is not None: + m = self.pattern.findall(content) + temp_dict[self.label] = ', '.join(m) + else: + temp_dict[self.label] = None + # update rev_data with our new columns + rev_data.update(temp_dict) + return rev_data + + +class WikiqParser(): + def __init__(self, input_file, output_file, regex_match_revision, regex_match_comment, regex_revision_label, regex_comment_label, collapse_user=False, persist=None, urlencode=False, namespaces = None, revert_radius=15): + """ + Parameters: + persist : what persistence method to use. Takes a PersistMethod value + """ + self.input_file = input_file + self.output_file = output_file + self.collapse_user = collapse_user + self.persist = persist + self.printed_header = False + self.namespaces = [] + self.urlencode = urlencode + self.revert_radius = revert_radius + + if namespaces is not None: + self.namespace_filter = set(namespaces) + else: + self.namespace_filter = None + + self.regex_revision_pairs = self.make_matchmake_pairs(regex_match_revision, regex_revision_label) + self.regex_comment_pairs = self.make_matchmake_pairs(regex_match_comment, regex_comment_label) + + + def make_matchmake_pairs(self, patterns, labels): + if (patterns is not None and labels is not None) and \ + (len(patterns) == len(labels)): + return [RegexPair(pattern, label) for pattern, label in zip(patterns, labels)] + elif (patterns is None and labels is None): + return [] + else: + sys.exit('Each regular expression *must* come with a corresponding label and vice versa.') + + def matchmake(self, rev, rev_data): + rev_data = self.matchmake_revision(rev.text, rev_data) + rev_data = self.matchmake_comment(rev.comment, rev_data) + return rev_data + + def matchmake_revision(self, text, rev_data): + return self.matchmake_pairs(text, rev_data, self.regex_revision_pairs) + + def matchmake_comment(self, comment, rev_data): + return self.matchmake_pairs(comment, rev_data, self.regex_comment_pairs) + + def matchmake_pairs(self, text, rev_data, pairs): + for pair in pairs: + rev_data = pair.matchmake(text, rev_data) + return rev_data + + def __get_namespace_from_title(self, title): + default_ns = None + + for ns in self.namespaces: + # skip if the namespace is not defined + if ns == None: + default_ns = self.namespaces[ns] + continue + + if title.startswith(ns + ":"): + return self.namespaces[ns] + + # if we've made it this far with no matches, we return the default namespace + return default_ns + + + def process(self): + + # create a regex that creates the output filename + # output_filename = re.sub(r'^.*/(enwiki\-\d+)\-.*p(\d+)p.*$', + # r'output/wikiq-\1-\2.tsv', + # input_filename) + + # Construct dump file iterator + dump = WikiqIterator(self.input_file, collapse_user=self.collapse_user) + + # extract list of namspaces + self.namespaces = {ns.name : ns.id for ns in dump.mwiterator.site_info.namespaces} + + page_count = 0 + rev_count = 0 + + + # Iterate through pages + for page in dump: + namespace = page.namespace if page.namespace is not None else self.__get_namespace_from_title(page.title) + + # skip namespaces not in the filter + if self.namespace_filter is not None: + if namespace not in self.namespace_filter: + continue + + rev_detector = mwreverts.Detector(radius = self.revert_radius) + + if self.persist != PersistMethod.none: + window = deque(maxlen=PERSISTENCE_RADIUS) + + if self.persist == PersistMethod.sequence: + state = mwpersistence.DiffState(SequenceMatcher(tokenizer = wikitext_split), + revert_radius=PERSISTENCE_RADIUS) + + elif self.persist == PersistMethod.segment: + state = mwpersistence.DiffState(SegmentMatcher(tokenizer = wikitext_split), + revert_radius=PERSISTENCE_RADIUS) + + # self.persist == PersistMethod.legacy + else: + from mw.lib import persistence + state = persistence.State() + + # Iterate through a page's revisions + for rev in page: + + # initialize rev_data + rev_data = { + 'revid':rev.id, + 'date_time' : rev.timestamp.strftime('%Y-%m-%d %H:%M:%S'), + 'articleid' : page.id, + 'editor_id' : "" if rev.deleted.user == True or rev.user.id is None else rev.user.id, + 'title' : '"' + page.title + '"', + 'namespace' : namespace, + 'deleted' : "TRUE" if rev.deleted.text else "FALSE" + } + + rev_data = self.matchmake(rev, rev_data) + + # if revisions are deleted, /many/ things will be missing + if rev.deleted.text: + rev_data['text_chars'] = "" + rev_data['sha1'] = "" + rev_data['revert'] = "" + rev_data['reverteds'] = "" + + else: + # rev.text can be None if the page has no text + if not rev.text: + rev.text = "" + # if text exists, we'll check for a sha1 and generate one otherwise + + if rev.sha1: + text_sha1 = rev.sha1 + else: + + text_sha1 = sha1(bytes(rev.text, "utf8")).hexdigest() + + rev_data['sha1'] = text_sha1 + + # TODO rev.bytes doesn't work.. looks like a bug + rev_data['text_chars'] = len(rev.text) + + # generate revert data + revert = rev_detector.process(text_sha1, rev.id) + + if revert: + rev_data['revert'] = "TRUE" + rev_data['reverteds'] = '"' + ",".join([str(x) for x in revert.reverteds]) + '"' + else: + rev_data['revert'] = "FALSE" + rev_data['reverteds'] = "" + + # if the fact that the edit was minor can be hidden, this might be an issue + rev_data['minor'] = "TRUE" if rev.minor else "FALSE" + + if not rev.deleted.user: + # wrap user-defined editors in quotes for fread + rev_data['editor'] = '"' + rev.user.text + '"' + rev_data['anon'] = "TRUE" if rev.user.id == None else "FALSE" + + else: + rev_data['anon'] = "" + rev_data['editor'] = "" + + #if re.match(r'^#redirect \[\[.*\]\]', rev.text, re.I): + # redirect = True + #else: + # redirect = False + + #TODO missing: additions_size deletions_size + + # if collapse user was on, lets run that + if self.collapse_user: + rev_data['collapsed_revs'] = rev.collapsed_revs + + if self.persist != PersistMethod.none: + if rev.deleted.text: + for k in ["token_revs", "tokens_added", "tokens_removed", "tokens_window"]: + old_rev_data[k] = None + else: + + if self.persist != PersistMethod.legacy: + _, tokens_added, tokens_removed = state.update(rev.text, rev.id) + + else: + _, tokens_added, tokens_removed = state.process(rev.text, rev.id, text_sha1) + + window.append((rev.id, rev_data, tokens_added, tokens_removed)) + + if len(window) == PERSISTENCE_RADIUS: + old_rev_id, old_rev_data, old_tokens_added, old_tokens_removed = window[0] + + num_token_revs, num_tokens = calculate_persistence(old_tokens_added) + + old_rev_data["token_revs"] = num_token_revs + old_rev_data["tokens_added"] = num_tokens + old_rev_data["tokens_removed"] = len(old_tokens_removed) + old_rev_data["tokens_window"] = PERSISTENCE_RADIUS-1 + + self.print_rev_data(old_rev_data) + + else: + self.print_rev_data(rev_data) + + rev_count += 1 + + if self.persist != PersistMethod.none: + # print out metadata for the last RADIUS revisions + for i, item in enumerate(window): + # if the window was full, we've already printed item 0 + if len(window) == PERSISTENCE_RADIUS and i == 0: + continue + + rev_id, rev_data, tokens_added, tokens_removed = item + num_token_revs, num_tokens = calculate_persistence(tokens_added) + + rev_data["token_revs"] = num_token_revs + rev_data["tokens_added"] = num_tokens + rev_data["tokens_removed"] = len(tokens_removed) + rev_data["tokens_window"] = len(window)-(i+1) + + self.print_rev_data(rev_data) + + page_count += 1 + + print("Done: %s revisions and %s pages." % (rev_count, page_count), + file=sys.stderr) + + def print_rev_data(self, rev_data): + # if it's the first time through, print the header + if self.urlencode: + for field in TO_ENCODE: + rev_data[field] = quote(str(rev_data[field])) + + if not self.printed_header: + print("\t".join([str(k) for k in sorted(rev_data.keys())]), file=self.output_file) + self.printed_header = True + + print("\t".join([str(v) for k, v in sorted(rev_data.items())]), file=self.output_file) + + +def open_input_file(input_filename): + if re.match(r'.*\.7z$', input_filename): + cmd = ["7za", "x", "-so", input_filename, '*'] + elif re.match(r'.*\.gz$', input_filename): + cmd = ["zcat", input_filename] + elif re.match(r'.*\.bz2$', input_filename): + cmd = ["bzcat", "-dk", input_filename] + + try: + input_file = Popen(cmd, stdout=PIPE).stdout + except NameError: + input_file = open(input_filename, 'r') + + return input_file + +def open_output_file(input_filename): + # create a regex that creates the output filename + output_filename = re.sub(r'\.(7z|gz|bz2)?$', '', input_filename) + output_filename = re.sub(r'\.xml', '', output_filename) + output_filename = output_filename + ".tsv" + output_file = open(output_filename, "w") + + return output_file + +parser = argparse.ArgumentParser(description='Parse MediaWiki XML database dumps into tab delimitted data.') + +# arguments for the input direction +parser.add_argument('dumpfiles', metavar="DUMPFILE", nargs="*", type=str, + help="Filename of the compressed or uncompressed XML database dump. If absent, we'll look for content on stdin and output on stdout.") + +parser.add_argument('-o', '--output-dir', metavar='DIR', dest='output_dir', type=str, nargs=1, + help="Directory for output files.") + +parser.add_argument('-s', '--stdout', dest="stdout", action="store_true", + help="Write output to standard out (do not create dump file)") + +parser.add_argument('--collapse-user', dest="collapse_user", action="store_true", + help="Operate only on the final revision made by user a user within all sequences of consecutive edits made by a user. This can be useful for addressing issues with text persistence measures.") + +parser.add_argument('-p', '--persistence', dest="persist", default=None, const='', type=str, choices = ['','segment','sequence','legacy'], nargs='?', + help="Compute and report measures of content persistent: (1) persistent token revisions, (2) tokens added, and (3) number of revision used in computing the first measure. This may by slow. The defualt is -p=sequence, which uses the same algorithm as in the past, but with improvements to wikitext parsing. Use -p=legacy for old behavior used in older research projects. Use -p=segment for advanced persistence calculation method that is robust to content moves, but prone to bugs, and slower.") + +parser.add_argument('-u', '--url-encode', dest="urlencode", action="store_true", + help="Output url encoded text strings. This works around some data issues like newlines in editor names. In the future it may be used to output other text data.") + +parser.add_argument('-n', '--namespace-include', dest="namespace_filter", type=int, action='append', + help="Id number of namspace to include. Can be specified more than once.") + +parser.add_argument('-rr', + '--revert-radius', + dest="revert_radius", + type=int, + action='store', + default=15, + help="Number of edits to check when looking for reverts (default: 15)") + +parser.add_argument('-RP', '--revision-pattern', dest="regex_match_revision", default=None, type=str, action='append', + help="The regular expression to search for in revision text. The regex must be surrounded by quotes.") + +parser.add_argument('-RPl', '--revision-pattern-label', dest="regex_revision_label", default=None, type=str, action='append', + help="The label for the outputted column based on matching the regex in revision text.") + +parser.add_argument('-CP', '--comment-pattern', dest="regex_match_comment", default=None, type=str, action='append', + help="The regular expression to search for in comments of revisions.") + +parser.add_argument('-CPl', '--comment-pattern-label', dest="regex_comment_label", default=None, type=str, action='append', + help="The label for the outputted column based on matching the regex in comments.") + +args = parser.parse_args() + +# set persistence method + +if args.persist is None: + persist = PersistMethod.none +elif args.persist == "segment": + persist = PersistMethod.segment +elif args.persist == "legacy": + persist = PersistMethod.legacy +else: + persist = PersistMethod.sequence + +if args.namespace_filter is not None: + namespaces = args.namespace_filter +else: + namespaces = None + +if len(args.dumpfiles) > 0: + for filename in args.dumpfiles: + input_file = open_input_file(filename) + + # open directory for output + if args.output_dir: + output_dir = args.output_dir[0] + else: + output_dir = "." + + print("Processing file: %s" % filename, file=sys.stderr) + + if args.stdout: + output_file = sys.stdout + else: + filename = os.path.join(output_dir, os.path.basename(filename)) + output_file = open_output_file(filename) + + wikiq = WikiqParser(input_file, + output_file, + collapse_user=args.collapse_user, + persist=persist, + urlencode=args.urlencode, + namespaces=namespaces, + revert_radius=args.revert_radius, + regex_match_revision = args.regex_match_revision, + regex_revision_label = args.regex_revision_label, + regex_match_comment = args.regex_match_comment, + regex_comment_label = args.regex_comment_label) + + wikiq.process() + + # close things + input_file.close() + output_file.close() +else: + wikiq = WikiqParser(sys.stdin, + sys.stdout, + collapse_user=args.collapse_user, + persist=persist, + #persist_legacy=args.persist_legacy, + urlencode=args.urlencode, + namespaces=namespaces, + revert_radius=args.revert_radius, + regex_match_revision = args.regex_match_revision, + regex_revision_label = args.regex_revision_label, + regex_match_comment = args.regex_match_comment, + regex_comment_label = args.regex_comment_label) + + wikiq.process() + +# stop_words = "a,able,about,across,after,all,almost,also,am,among,an,and,any,are,as,at,be,because,been,but,by,can,cannot,could,dear,did,do,does,either,else,ever,every,for,from,get,got,had,has,have,he,her,hers,him,his,how,however,i,if,in,into,is,it,its,just,least,let,like,likely,may,me,might,most,must,my,neither,no,nor,not,of,off,often,on,only,or,other,our,own,rather,said,say,says,she,should,since,so,some,than,that,the,their,them,then,there,these,they,this,tis,to,too,twas,us,wants,was,we,were,what,when,where,which,while,who,whom,why,will,with,would,yet,you,your" +# stop_words = stop_words.split(",") diff --git a/wikiq_to_parquet.py b/wikiq_to_parquet.py new file mode 100644 index 0000000..f200870 --- /dev/null +++ b/wikiq_to_parquet.py @@ -0,0 +1,61 @@ +from pathlib import Path +import pandas as pd +from multiprocessing import Pool +from pyspark.sql import functions as f +from pyspark.sql import SparkSession, Window +from pyspark.sql.functions import udf +from pyspark.sql.types import StringType +import csv + +path = Path("/gscratch/comdata/users/nathante/wikiqRunning/wikiq_output/") +outpath = Path("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante_parquet/") +files = list(map(Path,path.glob("*.tsv"))) +dumpfile = files[0] + +def wikiq_tsv_to_parquet(dumpfile, outpath = Path("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante.parquet/")): + outfile = outpath / (dumpfile.name + ".parquet") + outpath.mkdir(parents=True, exist_ok=True) + _wikiq_tsv_to_parquet(dumpfile,outfile) + +def _wikiq_tsv_to_parquet(dumpfile, outfile): + + dtypes = {'anon': dtype('O'), 'articleid': dtype('int64'), 'deleted': dtype('bool'), 'editor': dtype('O'), 'editor_id': dtype('float64'), 'minor': dtype('bool'), 'namespace': dtype('int64'), 'revert': dtype('O'), 'reverteds': dtype('O'), 'revid': dtype('int64'), 'sha1': dtype('O'), 'text_chars': dtype('float64'), 'title': dtype('O')} + + print(dumpfile) + df = pd.read_csv(dumpfile,sep='\t',quoting=csv.QUOTE_NONE,error_bad_lines=False, warn_bad_lines=True,parse_dates=['date_time'],dtype=dtypes) + + df.to_parquet(outfile) + +with Pool(28) as pool: + jobs = pool.imap_unordered(wikiq_tsv_to_parquet, files) + list(jobs) + +spark = SparkSession.builder.getOrCreate() + +@udf(StringType()) +def decode_strip_udf(val): + if val is None: + return "" + else: + return unquote(val).strip('\"') +df = spark.read.parquet('/gscratch/comdata/output/wikiq_enwiki_20200301_nathante.parquet') +df = df.withColumnRenamed("anon","anonRaw") +df = df.withColumn("anon",f.when(f.col("anonRaw")=="TRUE",True).otherwise(False)) +df = df.drop("anonRaw") +df = df.withColumnRenamed("text_chars","text_chars_raw") +df = df.withColumn("text_chars",f.col("text_chars_raw").cast('int')) +df = df.drop("text_chars_raw") +df = df.withColumnRenamed("editor_id",'editor_id_raw') +df = df.withColumn("editor_id",f.col("editor_id_raw").cast("int")) +df = df.drop("editor_id_raw") +df = df.withColumnRenamed("revert","revert_raw") +df = df.withColumn("revert",f.when(f.col("revert_raw")=="TRUE",True).otherwise(False)) +df = df.drop("revert_raw") +df = df.withColumnRenamed("title","title_raw") +df = df.withColumn("title", decode_strip_udf(f.col("title_raw"))) +df = df.drop("title_raw") +df = df.withColumnRenamed("editor","editor_raw") +df = df.withColumn("editor", decode_strip_udf(f.col("editor_raw"))) +df = df.drop("editor_raw") +df = df.repartition(400,'articleid') +df.write.parquet("/gscratch/comdata/output/wikiq_enwiki_20200301_nathante_partitioned.parquet",mode='overwrite')