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time_panel = function (df_data_code, df_trend_code, type, p_threshold=0.1, missRect=FALSE, unit2day=365.25, period=NULL, last=FALSE, first=FALSE, color=NULL) {
power = get_power(maxQ)
maxQtmp = maxQ/10^power
if (maxQtmp >= 5) {
dDate = as.numeric(df_data_code$Date[length(df_data_code$Date)] -
if (dDate >= 100) {
datebreak = 25
dateminbreak = 5
} else if (dDate < 100 & dDate >= 50) {
datebreak = 10
dateminbreak = 1
} else if (dDate < 50) {
datebreak = 5
dateminbreak = 1
}
p = ggplot() +
# theme_bw() +
theme(panel.background=element_rect(fill='white'),
text=element_text(family='sans'),
# panel.border=element_blank(),
panel.border = element_rect(color="grey85",
fill=NA,
size=0.7),
# panel.grid.major.y=element_line(color='grey85', size=0.3),
panel.grid.major.y=element_line(color='grey85', size=0.15),
# axis.ticks.y=element_blank(),
axis.ticks.y=element_line(color='grey75', size=0.3),
axis.ticks.x=element_line(color='grey75', size=0.3),
axis.text.x=element_text(color='grey40'),
axis.text.y=element_text(color='grey40'),
ggh4x.axis.ticks.length.minor=rel(0.5),
axis.ticks.length=unit(1.5, 'mm'),
axis.title.x=element_blank(),
axis.title.y=element_blank(),
# axis.title.y=element_text(size=8, color='grey20'),
axis.line.x=element_blank(),
axis.line.y=element_blank(),
)
if (last) {
if (first) {
p = p +
theme(plot.margin=margin(5, 5, 5, 5, unit="mm"))
} else {
p = p +
theme(plot.margin=margin(0, 5, 5, 5, unit="mm"))
}
if (first) {
p = p +
theme(plot.margin=margin(5, 5, 0, 5, unit="mm"))
} else {
p = p +
theme(plot.margin=margin(0, 5, 0, 5, unit="mm"))
}
geom_line(aes(x=df_data_code$Date, y=df_data_code$Qm3s),
geom_point(aes(x=df_data_code$Date, y=df_data_code$Qm3s),
NAdate = df_data_code$Date[is.na(df_data_code$Qm3s)]
dNAdate = diff(NAdate)
NAdate_Down = NAdate[append(Inf, dNAdate) != 1]
NAdate_Up = NAdate[append(dNAdate, Inf) != 1]
p = p +
geom_rect(aes(xmin=NAdate_Down,
ymin=0,
xmax=NAdate_Up,
period = as.list(period)
Imin = 10^99
for (per in period) {
I = interval(per[1], per[2])
if (I < Imin) {
Imin = I
period_min = as.Date(per)
}
p = p +
geom_rect(aes(xmin=min(df_data_code$Date),
ymin=0,
xmax=period_min[1],
ymax= maxQ*1.1),
linetype=0, fill='grey85', alpha=0.3) +
geom_rect(aes(xmin=period_min[2],
ymin=0,
xmax=max(df_data_code$Date),
ymax= maxQ*1.1),
linetype=0, fill='grey85', alpha=0.3)
}
Start = df_trend_code$period_start
UStart = levels(factor(Start))
End = df_trend_code$period_end
UEnd = levels(factor(End))
nPeriod = max(length(UStart), length(UEnd))
Periods = vector(mode='list', length=nPeriod)
# for (i in 1:nPeriod) {
# Periods[[i]] = as.Date(c(Period_start[i], Period_end[i]))
# }
ltype = c('solid', 'dashed', 'dotted', 'twodash')
df_trend_code_per =
df_trend_code[df_trend_code$period_start == Start[i]
& df_trend_code$period_end == End[i],]
iStart = which.min(abs(df_data_code$Date - Start[i]))
iEnd = which.min(abs(df_data_code$Date - End[i]))
abs = c(df_data_code$Date[iStart],
df_data_code$Date[iEnd])
abs_num = as.numeric(abs) / unit2day
ord = abs_num * df_trend_code_per$trend +
df_trend_code_per$intercept
plot = tibble(abs=abs, ord=ord)
p = p +
geom_line(data=plot, aes(x=abs, y=ord),
color=color[i],
linetype=ltype[i], size=0.7)
p = p +
geom_line(aes(x=abs, y=ord),
color='cornflowerblue')
}
codeDate = df_data_code$Date
codeQ = df_data_code$Qm3s
xend = x + gpct(3, codeDate)
dy = gpct(5, codeQ, ref=0)
xt = xend + gpct(1, codeDate)
label = bquote(bold(.(format(df_trend_code$trend, scientific=TRUE, digits=3)))~'['*m^{3}*'.'*s^{-1}*'.'*an^{-1}*']')
p = p +
annotate("segment",
x=x, xend=xend,
y=y, yend=y,
color=color[i],
lty=lty[i], lwd=1) +
annotate("text",
label=label, size=3,
x=xt, y=y,
hjust=0, vjust=0.4,
color=color[i])
# bquote(bold('tendance')~.(format(df_trend_code$trend, scientific=TRUE, digits=3))~'['*m^{3}*'.'*s^{-1}*'.'*an^{-1}*']')
p = p +
ggtitle(bquote(bold(.(type))~~'['*m^{3}*'.'*s^{-1}*']')) +
date_minor_breaks=paste(as.character(dateminbreak),
'year', sep=' '),
guide='axis_minor',
date_labels="%Y",
limits=c(min(df_data_code$Date),
max(df_data_code$Date)),
scale_y_continuous(breaks=seq(0, maxQ*10, dbrk),
limits=c(0, maxQ*1.1),
return(p)
}
text_panel = function(code, df_meta) {
df_meta_code = df_meta[df_meta$code == code,]
"<b>", code, '</b> - ', df_meta_code$nom, ' (',
df_meta_code$region_hydro, ')',
"</b>",
sep='')
text3 = paste(
"<b>",
"Superficie : ", df_meta_code$surface_km2_IN,
' (', df_meta_code$surface_km2_BH, ')', " [km<sup>2</sup>] <br>",
"X = ", df_meta_code$L93X_m_IN,
' (', df_meta_code$L93X_m_BH, ')', " [m ; Lambert 93]",
"</b>",
sep='')
text4 = paste(
"<b>",
"Altitude : ", df_meta_code$altitude_m_IN,
' (', df_meta_code$altitude_m_BH, ')', " [m]<br>",
"Y = ", df_meta_code$L93Y_m_IN,
' (', df_meta_code$L93Y_m_BH, ')', " [m ; Lambert 93]",
"</b>",
sep='')
text5 = paste(
"<b>",
"INRAE (Banque Hydro)<br>",
"INRAE (Banque Hydro)",
gtext1 = richtext_grob(text1,
x=0, y=1,
margin=unit(c(t=5, r=5, b=0, l=5), "mm"),
hjust=0, vjust=1,
gp=gpar(col="#00A3A8", fontsize=14))
gtext2 = richtext_grob(text2,
margin=unit(c(t=0, r=5, b=0, l=5), "mm"),
hjust=0, vjust=1,
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gtext3 = richtext_grob(text3,
x=0, y=1,
margin=unit(c(t=0, r=5, b=5, l=5), "mm"),
hjust=0, vjust=1,
gp=gpar(col="grey20", fontsize=9))
gtext4 = richtext_grob(text4,
x=0, y=1,
margin=unit(c(t=0, r=5, b=5, l=5), "mm"),
hjust=0, vjust=1,
gp=gpar(col="grey20", fontsize=9))
gtext5 = richtext_grob(text5,
x=0, y=1,
margin=unit(c(t=0, r=5, b=5, l=5), "mm"),
hjust=0, vjust=1,
gp=gpar(col="grey20", fontsize=9))
gtext_merge = grid.arrange(grobs=list(gtext1, gtext2, gtext3,
gtext4, gtext5),
layout_matrix=matrix(c(1, 1, 1,
2, 2, 2,
3, 4, 5),
nrow=3,
byrow=TRUE))
return(gtext_merge)
nbp = length(list_df2plot)
minTrend = c()
maxTrend = c()
for (i in 1:nbp) {
df_trend = list_df2plot[[i]]$trend
p_threshold = list_df2plot[[i]]$p_threshold
okTrend = df_trend$trend[df_trend$p <= p_threshold]
minTrend[i] = min(okTrend, na.rm=TRUE)
maxTrend[i] = max(okTrend, na.rm=TRUE)
}
# Get all different stations code
Code = levels(factor(df_meta$code))
Color_mat = c()
for (code in Code) {
for (i in 1:nbp) {
df_trend = list_df2plot[[i]]$trend
p_threshold = list_df2plot[[i]]$p_threshold
type = list_df2plot[[i]]$type
Type_mat = append(Type_mat, type)
Code_mat = append(Code_mat, code)
df_trend_code = df_trend[df_trend$code == code,]
if (df_trend_code$p <= p_threshold){
color_res = get_color(df_trend_code$trend,
minTrend[i],
maxTrend[i],
palette_name='perso',
reverse=FALSE)
trend = df_trend_code$trend
fill = color_res$color
color = 'white'
Trend_mat = append(Trend_mat, trend)
Fill_mat = append(Fill_mat, fill)
Color_mat = append(Color_mat, color)
X = as.integer(factor(as.character(Type_mat)))
Y = as.integer(factor(Code_mat))
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theme(
panel.background=element_rect(fill='white'),
text=element_text(family='sans'),
panel.border=element_blank(),
panel.grid.major.y=element_blank(),
panel.grid.major.x=element_blank(),
axis.text.x=element_blank(),
axis.text.y=element_blank(),
axis.ticks.y=element_blank(),
axis.ticks.x=element_blank(),
ggh4x.axis.ticks.length.minor=rel(0.5),
axis.ticks.length=unit(1.5, 'mm'),
plot.title=element_text(size=9, vjust=-3,
hjust=-1E-3, color='grey20'),
axis.title.x=element_blank(),
axis.title.y=element_blank(),
axis.line.x=element_blank(),
axis.line.y=element_blank(),
plot.margin=margin(5, 5, 5, 5, unit="mm"),
)
for (i in 1:length(X)) {
mat = mat +
gg_circle(r=0.5, xc=X[i], yc=Y[i], fill=Fill_mat[i], color=Color_mat[i])
}
mat = mat +
coord_fixed() +
scale_x_continuous(limits=c(min(X) - rel(1.5),
max(X) + rel(0.5)),
scale_y_continuous(limits=c(min(Y) - rel(0.5),
max(Y) + rel(1)),
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expand=c(0, 0))
for (i in 1:length(Code)) {
mat = mat +
annotate('text', x=-0.5, y=i,
label=Code[i],
hjust=0, vjust=0.5,
size=3.5, color='grey40')
}
for (i in 1:nbp) {
type = list_df2plot[[i]]$type
mat = mat +
annotate('text', x=i, y=max(Y) + 0.6,
label=bquote(.(type)),
hjust=0.5, vjust=0,
size=3.5, color='grey40')
}
for (i in 1:length(Trend_mat)) {
trend = Trend_mat[i]
if (!is.na(trend)) {
power = get_power(trend)
dbrk = 10^power
trendN = round(trend / dbrk, 2)
trendC1 = as.character(trendN)
trendC2 = bquote('x '*10^{.(as.character(power))})
} else {
trendC1 = ''
trendC2 = ''
}
mat = mat +
annotate('text', x=X[i], y=Y[i],
label=trendC1,
hjust=0.5, vjust=0,
size=3, color='white') +
annotate('text', x=X[i], y=Y[i],
label=trendC2,
hjust=0.5, vjust=1.3,
size=2, color='white')
}
get_color = function (value, min, max, ncolor=256, palette_name='perso', reverse=FALSE) {
if (palette_name == 'perso') {
palette = colorRampPalette(c(
'#1a4157',
'#00af9d',
'#fbdd7e',
'#fdb147',
'#fd4659'
))(ncolor)
} else {
palette = colorRampPalette(brewer.pal(11, palette_name))(ncolor)
}
if (reverse) {
palette = rev(palette)
}
palette_cold = palette[1:as.integer(ncolor/2)]
palette_hot = palette[(as.integer(ncolor/2)+1):ncolor]
ncolor_cold = length(palette_cold)
ncolor_hot = length(palette_hot)
if (value < 0) {
idNorm = (value - min) / (0 - min)
id = round(idNorm*(ncolor_cold - 1) + 1, 0)
color = palette_cold[id]
} else {
idNorm = (value - 0) / (max - 0)
id = round(idNorm*(ncolor_hot - 1) + 1, 0)
color = palette_hot[id]
}
void = ggplot() + geom_blank(aes(1,1)) +
theme(
plot.background = element_blank(),
panel.grid.major = element_blank(),
panel.grid.minor = element_blank(),
panel.border = element_blank(),
panel.background = element_blank(),
axis.title.x = element_blank(),
axis.title.y = element_blank(),
axis.text.x = element_blank(),
axis.text.y = element_blank(),
axis.ticks = element_blank(),
axis.line = element_blank()
)
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palette_tester = function () {
n = 300
X = 1:n
Y = rep(0, times=n)
palette = colorRampPalette(c(
'#1a4157',
'#00af9d',
'#fbdd7e',
'#fdb147',
'#fd4659'
))(n)
p = ggplot() +
geom_line(aes(x=X, y=Y), color=palette[X], size=10) +
scale_y_continuous(expand=c(0, 0))
ggsave(plot=p,
path='/figures',
filename=paste('palette_test', '.pdf', sep=''),
width=10, height=10, units='cm', dpi=100)
}
# palette_teste()
get_power = function (value) {
if (value > 1) {
power = nchar(as.character(as.integer(value))) - 1
} else {
dec = gsub('0.', '', as.character(value), fixed=TRUE)
ndec = nchar(dec)
nnum = nchar(as.character(as.numeric(dec)))
power = -(ndec - nnum + 1)
}
return(power)
}
gg_circle = function(r, xc, yc, color="black", fill=NA, ...) {
x = xc + r*cos(seq(0, pi, length.out=100))
ymax = yc + r*sin(seq(0, pi, length.out=100))
ymin = yc + r*sin(seq(0, -pi, length.out=100))
annotate("ribbon", x=x, ymin=ymin, ymax=ymax, color=color, fill=fill, ...)
}
gpct = function (pct, L, ref=NULL, shift=FALSE) {
if (is.null(ref)) {
minL = min(L, na.rm=TRUE)
} else {
minL = ref
}
maxL = max(L, na.rm=TRUE)
spanL = maxL - minL
xL = pct/100 * as.numeric(spanL)
if (shift) {
xL = xL + minL
}
return (xL)
}