Difference between revisions of "Dürer Farbanalyse"
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ON aw.id = ac.artwork_id | ON aw.id = ac.artwork_id | ||
WHERE aw.artist_id = %d AND | WHERE aw.artist_id = %d AND | ||
| − | aw.date_mean > %d AND | + | aw.date_mean >= %d AND |
| − | aw.date_mean < %d | + | aw.date_mean <= %d |
GROUP BY date_mean | GROUP BY date_mean | ||
ORDER BY dating", duerer_id, duerer_birth, duerer_death), "[\r\n]" , " ") | ORDER BY dating", duerer_id, duerer_birth, duerer_death), "[\r\n]" , " ") | ||
| Line 61: | Line 61: | ||
plot(merged_sequence$dating, na.approx(merged_sequence$nr_areas), type="s", xlab="Date", ylab="Average nr. Areas") | plot(merged_sequence$dating, na.approx(merged_sequence$nr_areas), type="s", xlab="Date", ylab="Average nr. Areas") | ||
#add lines for stay in Venice | #add lines for stay in Venice | ||
| − | abline(h = | + | abline(h = start_venice, v = start_venice, col = "red") |
| − | abline(h = | + | abline(h = end_venice, v = end_venice, col = "red") |
#DataSet before Venice | #DataSet before Venice | ||
nrAreasBefVenice <- subset(data_nr_areas, dating < start_venice) | nrAreasBefVenice <- subset(data_nr_areas, dating < start_venice) | ||
| Line 72: | Line 72: | ||
#print averages | #print averages | ||
print(sprintf("Average Nr Areas before Venice: %f", mean(nrAreasBefVenice$nr_areas))) | print(sprintf("Average Nr Areas before Venice: %f", mean(nrAreasBefVenice$nr_areas))) | ||
| − | print(sprintf("Average Nr Areas in Venice: %f",mean(nrAreasInVenice$nr_areas))) | + | print(sprintf("Average Nr Areas in Venice: %f", mean(nrAreasInVenice$nr_areas))) |
| − | print(sprintf("Average Nr Areas after Venice: %f",mean(nrAreasAftVenice$nr_areas))) | + | print(sprintf("Average Nr Areas after Venice: %f", mean(nrAreasAftVenice$nr_areas))) |
| Line 83: | Line 83: | ||
ON aw.id = ac.artwork_id | ON aw.id = ac.artwork_id | ||
WHERE aw.artist_id = %d AND | WHERE aw.artist_id = %d AND | ||
| − | aw.date_mean > %d AND | + | aw.date_mean >= %d AND |
| − | aw.date_mean < %d | + | aw.date_mean <= %d |
GROUP BY ac.color, dating | GROUP BY ac.color, dating | ||
ORDER BY dating", duerer_id, duerer_birth, duerer_death), "[\r\n]" , " ") | ORDER BY dating", duerer_id, duerer_birth, duerer_death), "[\r\n]" , " ") | ||
| Line 96: | Line 96: | ||
#create cartesian product of years and colors | #create cartesian product of years and colors | ||
merge_table <- data.table(CJ(dating = all_dates$dating, color = color_names$color)) | merge_table <- data.table(CJ(dating = all_dates$dating, color = color_names$color)) | ||
| − | |||
| − | |||
#convert result to data.table | #convert result to data.table | ||
dc <- data.table(data_colors) | dc <- data.table(data_colors) | ||
| − | |||
| − | |||
#add years that have no artwork available to the dataset with NA values | #add years that have no artwork available to the dataset with NA values | ||
data_colors <- merge(dc, merge_table, by=c("dating", "color"), all=TRUE, allow.cartesian = TRUE) | data_colors <- merge(dc, merge_table, by=c("dating", "color"), all=TRUE, allow.cartesian = TRUE) | ||
for (colx in color_names$color) { | for (colx in color_names$color) { | ||
| − | png(sprintf(' | + | png(sprintf('%s.png', colx)) |
subS <- subset(data_colors, color==colx) | subS <- subset(data_colors, color==colx) | ||
if(colx == "white"){ | if(colx == "white"){ | ||
| Line 120: | Line 116: | ||
analytics <- data.frame(stringsAsFactors = TRUE) | analytics <- data.frame(stringsAsFactors = TRUE) | ||
| − | |||
for (col in color_names$color) { | for (col in color_names$color) { | ||
| − | b <- subset(data_colors, dating < start_venice & color == col) | + | b <- subset(data_colors, dating < start_venice & color == col) |
i <- subset(data_colors, dating >= start_venice & dating <= end_venice & color == col) | i <- subset(data_colors, dating >= start_venice & dating <= end_venice & color == col) | ||
| − | a <- subset(data_colors, dating > start_venice & color == col) | + | a <- subset(data_colors, dating > start_venice & color == col) |
new_row <- data.frame(color=col, | new_row <- data.frame(color=col, | ||
before_venice = mean(b$avg_perc_areas, na.rm=TRUE), | before_venice = mean(b$avg_perc_areas, na.rm=TRUE), | ||
| − | in_venice = mean(i$avg_perc_areas, na.rm=TRUE), | + | in_venice = mean(i$avg_perc_areas, na.rm=TRUE), |
| − | after_venice = mean(a$avg_perc_areas, na.rm=TRUE), stringsAsFactors=FALSE) | + | after_venice = mean(a$avg_perc_areas, na.rm=TRUE), stringsAsFactors=FALSE) |
analytics <- rbind(analytics, col = new_row) | analytics <- rbind(analytics, col = new_row) | ||
} | } | ||
rownames(analytics) <- analytics$color | rownames(analytics) <- analytics$color | ||
analytics$color <- c() | analytics$color <- c() | ||
| − | png(' | + | png('distribution.png') |
colors <- c("darkblue", "red", "green") | colors <- c("darkblue", "red", "green") | ||
barplot(t(as.matrix(analytics)), beside=TRUE, col = colors) | barplot(t(as.matrix(analytics)), beside=TRUE, col = colors) | ||
Latest revision as of 10:36, 22 June 2016
Color useage
Sample violet useage
# Duerer Color Analysis
# (c) 2016 Linus Kohl, kohl@munichtrading.com
# Question: Does Duerers useage of color change
# while and after his time in Venice (1505-1507)
#enable UTF-8 character encoding
options(encoding = "UTF-8");
#load database driver
library(RMySQL)
#other libraries
library(stringr)
library(zoo)
library(ggplot2)
library(data.table)
library(xts)
library(dplyr)
#set constants
#Duerer artist_id 2537
duerer_id <- 2537
# Duerer dates
duerer_birth <- 1471
duerer_death <- 1528
# Period in Venice 1505-1507
start_venice <- 1505
end_venice <- 1507
#connect to the database
mydb = dbConnect(MySQL(),
host='db.dmz.dhvlab.fo',
user='XX',
password='XX',
dbname='all_art_artigo'
)
#define query string to get average nr of distinct color areas
qs_nr_areas <- str_replace_all(sprintf("
SELECT date_mean dating, AVG(nr_areas) as nr_areas
FROM artworks as aw
LEFT JOIN artworks_colors as ac
ON aw.id = ac.artwork_id
WHERE aw.artist_id = %d AND
aw.date_mean >= %d AND
aw.date_mean <= %d
GROUP BY date_mean
ORDER BY dating", duerer_id, duerer_birth, duerer_death), "[\r\n]" , " ")
#query database
data_nr_areas = dbGetQuery(mydb, qs_nr_areas)
#fill missing values
#create complete sequence over dates
all_dates <- seq(from = min(data_nr_areas$dating), to = max(data_nr_areas$dating), by = 1)
table_all_dates <- data.table(dating=all_dates)
#merge tables
merged_sequence <- merge(data_nr_areas, table_all_dates, by="dating", all=TRUE)
#plot
plot(merged_sequence$dating, na.approx(merged_sequence$nr_areas), type="s", xlab="Date", ylab="Average nr. Areas")
#add lines for stay in Venice
abline(h = start_venice, v = start_venice, col = "red")
abline(h = end_venice, v = end_venice, col = "red")
#DataSet before Venice
nrAreasBefVenice <- subset(data_nr_areas, dating < start_venice)
#DataSet in Venice
nrAreasInVenice <- subset(data_nr_areas, dating >= start_venice & dating <= end_venice)
#DataSet after Venice
nrAreasAftVenice <- subset(data_nr_areas, dating > start_venice)
#print averages
print(sprintf("Average Nr Areas before Venice: %f", mean(nrAreasBefVenice$nr_areas)))
print(sprintf("Average Nr Areas in Venice: %f", mean(nrAreasInVenice$nr_areas)))
print(sprintf("Average Nr Areas after Venice: %f", mean(nrAreasAftVenice$nr_areas)))
#analyze colors
qs_colors <- str_replace_all(sprintf("
SELECT aw.date_mean dating, ac.color, AVG(ac.nr_areas) as avg_nr_areas, AVG(ac.perc_areas) as avg_perc_areas
FROM artworks as aw
LEFT JOIN artworks_colors as ac
ON aw.id = ac.artwork_id
WHERE aw.artist_id = %d AND
aw.date_mean >= %d AND
aw.date_mean <= %d
GROUP BY ac.color, dating
ORDER BY dating", duerer_id, duerer_birth, duerer_death), "[\r\n]" , " ")
#query database
data_colors = dbGetQuery(mydb, qs_colors)
#get color names
color_names <- data.table(color = c("green", "red", "black", "blue", "orange", "violet", "yellow", "white"))
#create sequence of all years
all_dates <- data.table(dating = seq(from = min(data_colors$dating), to = max(data_colors$dating), by = 1) )
#create cartesian product of years and colors
merge_table <- data.table(CJ(dating = all_dates$dating, color = color_names$color))
#convert result to data.table
dc <- data.table(data_colors)
#add years that have no artwork available to the dataset with NA values
data_colors <- merge(dc, merge_table, by=c("dating", "color"), all=TRUE, allow.cartesian = TRUE)
for (colx in color_names$color) {
png(sprintf('%s.png', colx))
subS <- subset(data_colors, color==colx)
if(colx == "white"){
line_color = "black"
} else {
line_color = colx
}
plot(subS$dating, subS$avg_perc_areas, type="l", col=line_color, xlab = "Year", ylab="Percentage", ylim=c(0, 100))
abline(h = start_venedig, v = start_venice, col = "red")
abline(h = end_venedig, v = end_venice, col = "red")
dev.off()
}
analytics <- data.frame(stringsAsFactors = TRUE)
for (col in color_names$color) {
b <- subset(data_colors, dating < start_venice & color == col)
i <- subset(data_colors, dating >= start_venice & dating <= end_venice & color == col)
a <- subset(data_colors, dating > start_venice & color == col)
new_row <- data.frame(color=col,
before_venice = mean(b$avg_perc_areas, na.rm=TRUE),
in_venice = mean(i$avg_perc_areas, na.rm=TRUE),
after_venice = mean(a$avg_perc_areas, na.rm=TRUE), stringsAsFactors=FALSE)
analytics <- rbind(analytics, col = new_row)
}
rownames(analytics) <- analytics$color
analytics$color <- c()
png('distribution.png')
colors <- c("darkblue", "red", "green")
barplot(t(as.matrix(analytics)), beside=TRUE, col = colors)
legend("topleft", colnames(analytics), fill = colors, bty = "n")
dev.off()