Modulo:Graph
Istruzioni per l'usoQuesto è un modulo scritto in Lua. Le istruzioni che seguono sono contenute nella sottopagina Modulo:Graph/man (modifica · cronologia)
Sandbox: Modulo:Graph/sandbox (modifica · cronologia) · Sottopagine: lista · Test: Modulo:Graph/test (modifica · cronologia · Esegui)
Modulo che implementa i template {{Grafico}} e {{Grafico a torta}}.
Ha una sottopagina di configurazione: Modulo:Graph/Configurazione.
local p = {}
local cfg = mw.loadData( 'Modulo:Chart/sandbox/Configurazione' );
local getArgs = require('Module:Arguments').getArgs
local errors = { }
local function dump(t, ...)
local args = {...}
for _, s in ipairs(args) do
table.insert(t, s)
end
end
-- ===============================================================================
-- Add error message to errors list, mgs_key must be a error key listed in
-- cfg.errors_key, args is an optional array of string
-- ===============================================================================
local function add_error(msg_key, args)
local msg = cfg.errors_key[msg_key]
if not msg then msg = cfg.errors_key.unknown_error end
if args then
errors[#errors+1] = mw.ustring.format(msg, unpack(args))
else
errors[#errors+1] = msg
end
end
-- ===============================================================================
-- Consolidate errors messages and add error category
-- ===============================================================================
local function errors_output(nocat)
if #errors > 0 then
local out = string.format('<strong class="error">%s</strong>', table.concat(errors, "; "))
if nocat or not cfg.uncategorized_namespaces[mw.title.getCurrentTitle().ns] then
out = out .. '[[Category:' .. cfg.errors_category .. ']]'
end
return out
end
return ''
end
-- ===============================================================================
-- Return true if val is not nil and is a string in the array cfg.yes_values
-- ===============================================================================
local function return_yes_value(val)
return val and cfg.yes_values[mw.ustring.lower(val)]
end
-- ===============================================================================
-- Return true if val is not nil and is a string in the array cfg.no_value
-- ===============================================================================
local function return_no_value(val)
return val and cfg.no_values[mw.ustring.lower(val)]
end
-- ===============================================================================
-- Return an array of numbers splitting a string at ","
-- For localization purpose check for the presence of an alternative separator
-- and alternative symbol for decimal separator
-- ===============================================================================
local function numericArray(csv, default_empty)
if not csv then return end
if default_empty == nil then default_empty = 'x' end
local list = {}
-- check for local separator character instead of ","
if mw.ustring.find(csv, cfg.separator.list) then
list = mw.text.split(mw.ustring.gsub(csv, "%s", ""), cfg.separator.list)
for index,v in ipairs(list) do
list[index] = mw.ustring.gsub(v, cfg.separator.decimal, ".")
end
else
list = mw.text.split(mw.ustring.gsub(csv, "%s", ""), ",")
end
-- build output array replacing empty value with a "x"
local result = {}
for i, val in ipairs(list) do
if val == '' then
result[i] = 'x'
else
result[i] = tonumber(val)
end
end
return result
end
-- ===============================================================================
-- Return an array of string splitting at ","
-- ===============================================================================
local function stringArray(csv)
if not csv then return end
local t = {}
for s in mw.text.gsplit(csv, ",") do
t[#t+1] = mw.text.trim(s)
end
return t
end
-- ==============================================================================
-- Return true if t is a table
-- ===============================================================================
local function isTable(t)
return type(t) == "table"
end
-- ==============================================================================
-- Extend table replicating content
-- ==============================================================================
local function extend_table(t, new_len)
if #t >= new_len then return t end
local pos = 1
local old_len = #t
for i = #t+1, new_len do
t[i] = t[pos]
pos = pos + 1
if pos > old_len then pos = 1 end
end
return t
end
-- ==============================================================================
-- Generate a color palette from the name (must be in cfg.colors_palette)
-- with minimal length len
-- ==============================================================================
local function generate_color_palette(palette, len)
if not cfg.colors_palette[palette] then
colors_palette = "category10"
end
local palette_len, color_palette = cfg.colors_palette[palette][1],cfg.colors_palette[palette][2]
local t = {}
local pos = 1
for i = 1, palette_len do
t[i] = color_palette[pos]
pos = pos + 1
if pos > palette_len then pos = 1 end
end
--t = extend_table(palette, len or 1)
return t
end
-- ===================================================================================
-- Wrap the graph inside a div structure and add an optional legend extenal to the
-- graph tag
-- ===================================================================================
local function wrap_graph(graph, legend, align, width)
local html = mw.html.create('div'):addClass('thumb')
if align then
html:addClass('t' .. align)
else
html:css('display', 'inline-block')
end
html:tag('div')
:addClass('thumbinner')
:tag('div')
:wikitext(graph)
:done()
:tag('div')
:node(legend)
:css('width', tostring(width) .. 'px')
return tostring(html)
end
-- ===================================================================================
-- Build a legend item joining a color box with text
-- ===================================================================================
local function legend_item(color, text)
local item = mw.html.create('p'):cssText('margin:0px;font-size:100%;text-align:left')
item:tag('span'):cssText(string.format('border:none;background-color:%s;color:%s;', color, color)):wikitext("██")
item:wikitext(string.format(" %s", text))
return item
end
-- ===================================================================================
-- Build a legend
-- ===================================================================================
local function build_legend(colors, labels, title, ncols)
local legend = mw.html.create('div'):addClass('thumbcaption'):css('text-align', 'center')
legend:wikitext(title or '')
local legend_list= mw.html.create('div')
local cols = tonumber(ncols or "1")
if cols>1 then
local col_string = tostring(cols)
legend_list
:css('-moz-column-count', col_string)
:css('-webkit-column-count', col_string)
:css('column-count:', col_string)
end
if not isTable(colors) then
colors = generate_color_palette(colors, #labels)
end
for i,label in ipairs(labels) do
legend_list:node(legend_item(colors[i], label))
end
legend:node(legend_list)
return legend
end
-- ===================================================================================
-- Return the json code to build a pie chart
-- ===================================================================================
function p.pie_chart_json(args)
local data = {}
for pos,x in ipairs(args.values) do
data[pos] = { x = x, color = args.colors[pos] }
end
local graph = {
name = args.name,
width = math.floor(args.graphwidth / 3),
height = math.floor(args.graphwidth / 3),
data = {
{
name = "table",
values = data,
transform = { { type = "pie", value = "data.x" } }
}
},
marks = {
{
type = "arc",
from = { data = "table"},
properties = {
enter = {
x = { field = "data.x", group = "width", mult = 0.5 },
y = { field = "data.x", group = "height", mult = 0.5 },
startAngle = { field = "startAngle"},
endAngle = {field = "endAngle"},
innerRadius = {value = args.inner_radius},
outerRadius = {value = args.outer_radius },
stroke = {value = "#fff"},
},
update = { fill = { field = "data.color"} },
hover = { fill = {value = "pink"} }
},
}
}
}
local flags = return_yes_value(args[cfg.localization.debug_json]) and mw.text.JSON_PRETTY
return mw.text.jsonEncode(graph, flags)
end
-- ===================================================================================
-- Interface function for template:pie_chart
-- ===================================================================================
function p.pie_chart(frame)
local args = getArgs(frame, {parentOnly = true})
local arguments = { }
arguments.name = args[cfg.localization.name] or 'grafico a torta'
arguments.values = numericArray(args[cfg.localization.values], 0)
-- get marks colors, use default category10 palette as default,
-- if colors is not the name of a palette then read it as an array of colors
arguments.colors = args[cfg.localization.colors] or "category10"
if not cfg.colors_palette[arguments.colors] then
arguments.colors = stringArray(arguments.colors)
else
arguments.colors = generate_color_palette(arguments.colors)
end
arguments.labels = {}
local index = 1
label_string = cfg.localization.label
if args[label_string] then
arguments.labels[1] = args[label_string]
index = 2
end
while true do
if not args[label_string .. tostring(index)] then break end
arguments.labels[index] = args[label_string .. tostring(index)]
index = index + 1
end
-- Se è definito 'other' assumo che sia calcolato su base %, calcolo il suo valore e l'aggiungo alla tabella dati
if args[cfg.localization.other] then
local total = 0
for _,val in ipairs(arguments.values) do total = total + val end
if total > 0 and total < 100 then
arguments.values[#arguments.values+1]= math.max(0, 100 - total)
arguments.labels[#arguments.values] = "Altri"
end
end
arguments.colors = extend_table(arguments.colors, #arguments.values)
arguments.graphwidth = tonumber(args[cfg.localization.width]) or cfg.default.width_piechart
arguments.outer_radius = arguments.graphwidth / 2 - 5
if return_yes_value(args[cfg.localization.ring]) then
arguments.inner_radius = arguments.outer_radius / 3
else
arguments.inner_radius = 0
end
arguments.legend = args[cfg.localization.internal_legend] or args[cfg.localization.external_legend] or 'Legenda'
for pos,txt in ipairs(arguments.labels) do
arguments.labels[pos] = txt .. ' (' .. mw.language.getContentLanguage():formatNum(arguments.values[pos] or 0) .. '%)'
end
local json_code = p.pie_chart_json(arguments)
if args[cfg.localization.debug_json] then return frame:extensionTag('syntaxhighlight', json_code) end
local external_legend
if not return_no_value(arguments.legend) then
external_legend = build_legend(arguments.colors, arguments.labels, arguments.legend, args[cfg.localization.nCols])
end
local chart = frame:extensionTag('graph', json_code)
local align = args[cfg.localization.thumb]
return wrap_graph(chart, external_legend, align, arguments.graphwidth ) .. errors_output(args.NoTracking)
end
-- ===================================================================================
-- Generate data structure for x and y axes
-- ===================================================================================
local function build_ax(args, ax_name)
local ax = {
type = ax_name,
scale = ax_name,
title = args[ax_name .. 'title'],
format = args[ax_name .. 'format'],
grid = args[ax_name .. 'grid'],
layer = "back"
}
if isTable(args[ax_name .. 'AxisPrimaryTicks']) then
ax.values = args[ax_name .. 'AxisPrimaryTicks']
elseif args[ax_name .. 'nTicks'] then
ax.ticks = args[ax_name .. 'nTicks']
end
if args[ax_name .. 'SecondaryTicks'] then ax.subdivide = args[ax_name .. 'SecondaryTicks'] end
return ax
end
-- ===================================================================================
-- Return a json structure to generate a a line/area/bar chart
-- Imported and modified from en:Module:Chart revision 670068988 of 5 july 2015
-- ===================================================================================
function p.chart_json(args)
-- build axes
x_ax = build_ax(args, 'x')
y_ax = build_ax(args, 'y')
axes = { x_ax, y_ax }
-- create data tuples, consisting of series index, x value, y value
local data = { name = "chart", values = {} }
for i, yserie in ipairs(args.y) do
for j = 1, math.min(#yserie, #args.x) do
if yserie[j] ~= 'x' then data.values[#data.values + 1] = { series = args.seriesTitles[i], x = args.x[j], y = yserie[j] } end
end
end
-- calculate statistics of data as stacking requires cumulative y values
local stats
if args.is_stacked then
stats =
{
name = "stats", source = "chart", transform =
{
{ type = "facet", keys = { "data.x" } },
{ type = "stats", value = "data.y" }
}
}
end
-- create scales
local xscale =
{
name = "x",
type = "linear",
range = "width",
zero = false, -- do not include zero value
nice = true, -- force round numbers for y scale
___domain = { data = "chart", field = "data.x" }
}
if args.xMin then xscale.domainMin = args.xMin end
if args.xMax then xscale.domainMax = args.xMax end
if args.xMin or args.xMax then xscale.clamp = true end
if args.graph_type == "rect" or args.force_x_ordinal then xscale.type = "ordinal" end
local yscale =
{
name = "y",
type = "linear",
range = "height",
-- area charts have the lower boundary of their filling at y=0 (see marks.properties.enter.y2), therefore these need to start at zero
zero = args.graph_type ~= "line",
nice = true
}
if args.yMin then yscale.domainMin = args.yMin end
if args.yMax then yscale.domainMax = args.yMax end
if args.yMin or args.yMax then yscale.clamp = true end
if args.is_stacked then
yscale.___domain = { data = "stats", field = "sum" }
else
yscale.___domain = { data = "chart", field = "data.y" }
end
-- Color scale
local colorScale = { name = "color", type = "ordinal", range = args.colors }
local alphaScale
if args.alphas then alphaScale = { name = "transparency", graph_type = "ordinal", range = args.alphas } end
-- Symbols scale
local symbolsScale
if args.symbols then symbolsScale = { name = "symbols", type = "ordinal", range = args.symbols } end
-- for bar charts with multiple series: each series is grouped by the x value, therefore the series need their own scale within each x group
local groupScale
if args.graph_type == "rect" and not is_stacked and #args.y > 1 then
groupScale = { name = "series", type = "ordinal", range = "width", ___domain = { field = "data.series" } }
xscale.padding = 0.2 -- pad each bar group
end
-- decide if lines (strokes) or areas (fills) should be drawn
local colorField
if args.graph_type == "line" then colorField = "stroke" else colorField = "fill" end
-- create chart markings
local marks =
{
type = args.graph_type,
properties =
{
-- chart creation event handler
enter =
{
x = { scale = "x", field = "data.x" },
y = { scale = "y", field = "data.y" },
},
-- chart update event handler
update = { },
-- chart hover event handler
hover = { }
}
}
if strokeScale then
marks.properties.enter.strokeWidth = { scale = "stroke"}
end
marks.properties.update[colorField] = { scale = "color" }
marks.properties.hover[colorField] = { value = "red" }
if alphaScale then marks.properties.update[colorField .. "Opacity"] = { scale = "transparency" } end
-- for bars and area charts set the lower bound of their areas
if args.graph_type == "rect" or args.graph_type == "area" then
if args.is_stacked then
-- for stacked charts this lower bound is cumulative/stacking
marks.properties.enter.y2 = { scale = "y", field = "y2" }
else
--[[
for non-stacking charts the lower bound is y=0
TODO: "yscale.zero" is currently set to "true" for this case, but "false" for all other cases.
For the similar behavior "y2" should actually be set to where y axis crosses the x axis,
if there are only positive or negative values in the data ]]
marks.properties.enter.y2 = { scale = "y", value = 0 }
end
end
-- for bar charts ...
if args.graph_type == "rect" then
-- set 1 pixel width between the bars
marks.properties.enter.width = { scale = "x", band = true, offset = -1 }
-- for multiple series the bar marking need to use the "inner" series scale, whereas the "outer" x scale is used by the grouping
if not args.is_stacked and #args.y > 1 then
marks.properties.enter.x.scale = "series"
marks.properties.enter.x.field = "data.series"
marks.properties.enter.width.scale = "series"
end
end
if args.graph_type == "line" then marks.properties.enter.strokeWidth = { value = args.stroke_thickness } end
-- stacked charts have their own (stacked) y values
if args.is_stacked then marks.properties.enter.y.field = "y" end
-- set interpolation mode
if args.interpolate then marks.properties.enter.interpolate = { value = args.interpolate } end
local symbolsMarks
if symbolsScale then
symbolsMarks = {
type = "symbol",
from = { data = "chart" },
properties = {
enter =
{
x = { scale = "x", field = "data.x" },
y = { scale = "y", field = "data.y" },
shape = { scale = "symbols" },
},
update = { stroke = { scale = "color"} }
}
}
if args.symbol_size then symbolsMarks.properties.enter.size = { value = args.symbol_size } end
end
if #args.y == 1 then
marks.from = { data = "chart" }
marks = { marks, symbolsMarks }
else
-- if there are multiple series, connect colors to series
if args.graph_type == "rect" and args.colorsByGroup then
marks.properties.update[colorField].field = "data.x"
else
marks.properties.update[colorField].field = "data.series"
end
if symbolsScale then
symbolsMarks.properties.enter.shape.field = "data.series"
symbolsMarks.properties.update.stroke.field = "data.series"
end
if alphaScale then marks.properties.update[colorField .. "Opacity"].field = "data.series" end
-- apply a grouping (facetting) transformation
marks =
{
type = "group",
marks = { marks, symbolsMarks },
from =
{
data = "chart",
transform =
{
{
type = "facet",
keys = { "data.series" }
}
}
}
}
-- for stacked charts apply a stacking transformation
if args.is_stacked then
marks.from.transform[2] = { type = "stack", point = "data.x", height = "data.y" }
else
-- for bar charts the series are side-by-side grouped by x
if args.graph_type == "rect" then
marks.from.transform[1].keys = "data.x"
marks.scales = { groupScale }
marks.properties = { enter = { x = { field = "key", scale = "x" }, width = { scale = "x", band = true } } }
end
end
marks = { marks }
end
-- create legend
if args.internal_legend then
legend = { { fill = "color", stroke = "color", title = args.internal_legend } }
end
-- build final output object
local scales = { xscale, yscale, colorScale}
if alphaScale then scales[#scales+1] = alphaScale end
if symbolsScale then scales[#scales+1] = symbolsScale end
local output =
{
width = args.graphwidth,
height = args.graphheight,
data = { data, stats },
scales = scales,
axes = axes,
marks = marks ,
legends = legend
}
local flags = return_yes_value(args[cfg.localization.debug_json]) and mw.text.JSON_PRETTY
return mw.text.jsonEncode(output, flags)
end
-- ===================================================================================
-- Interface function for template:Grafico a linee
-- ===================================================================================
function p.chart(frame)
-- Read ax arguments
local function read_ax_arguments(args, ax_name, arguments)
arguments[ax_name .. 'title'] = args[cfg.localization[ax_name .. 'AxisTitle']]
arguments[ax_name .. 'format'] = args[cfg.localization[ax_name .. 'AxisFormat']]
local grid = cfg.default[ax_name .. 'Grid']
if grid then
grid = not return_no_value(args[cfg.localization[ax_name .. 'Grid']])
else
grid = return_yes_value(args[cfg.localization[ax_name .. 'Grid']])
end
arguments[ax_name .. 'grid'] = grid
arguments[ax_name .. 'AxisPrimaryTicks'] = numericArray(args[cfg.localization[ax_name .. 'AxisPrimaryTicks']])
arguments[ax_name.. 'nTicks'] = tonumber(args[cfg.localization[ax_name .. 'AxisPrimaryTicksNumber']])
arguments[ax_name .. 'SecondaryTicks'] = tonumber(args[cfg.localization[ax_name .. 'AxisSecondaryTicks']])
arguments[ax_name ..'Min'] = tonumber(args[cfg.localization[ax_name .. 'AxisMin']])
arguments[ax_name ..'Max'] = tonumber(args[cfg.localization[ax_name .. 'AxisMax']])
end
-- get graph type
local function get_graph_type(graph_string)
if graph_string == nil then return "line", false end
local graph_type = cfg.graph_type[mw.ustring.lower(graph_string)]
if graph_type then return graph_type[1], graph_type[2] end
add_error('type_unknown', {graph_string})
end
local args = getArgs(frame, {parentOnly = true})
-- analyze and build data to build the chart
local arguments = { }
arguments.graphwidth = tonumber(args[cfg.localization.width]) or cfg.default.width
arguments.graphheight = tonumber(args[cfg.localization.height]) or cfg.default.height
arguments.graph_type, arguments.is_stacked = get_graph_type(args[cfg.localization.type])
arguments.interpolate = args[cfg.localization.interpolate]
if arguments.interpolate and not cfg.interpolate[arguments.interpolate] then
add_error('value_not_valid', {cfg.localization.interpolate, arguments.interpolate})
interpolate = nil
end
-- get marks symbols, default symbol is used if the type of graph is line, otherwise the default
-- is not to use symbol.
if arguments.graph_type == "line" and not return_no_value(args[cfg.localization.symbols]) then
arguments.symbols = stringArray(args[cfg.localization.symbols]) or cfg.default.symbol
arguments.symbol_size = tonumber(args[cfg.localization.symbolSize]) or cfg.default.symbol_size
end
if arguments.graph_type =="line" then
arguments.stroke_thickness = tonumber(args[cfg.localization.strokeThickness]) or cfg.default.stroke_thickness
end
-- show legend, optionally caption
arguments.internal_legend = args[cfg.localization.internal_legend]
-- get x values
arguments.x = numericArray(args.x)
arguments.force_x_ordinal = false
if #arguments.x == 0 then
arguments.force_x_ordinal = true
else
for _,val in ipairs(arguments.x) do
if val == 'x' then
arguments.force_x_ordinal = true
break
end
end
end
if arguments.force_x_ordinal then arguments.x = stringArray(args.x) end
-- get y values (series)
arguments.y = {}
local index = 1
arguments.seriesTitles = {}
if args.y then
arguments.y[1] = numericArray(args.y)
arguments.seriesTitles[1] = args[string.gsub(cfg.localization.yTitle, '#', '')] or args[string.gsub(cfg.localization.yTitle, '#', '1')] or "y"
index = 2
end
while true do
if not args['y'..tostring(index)] then break end
arguments.y[index] = numericArray(args['y'..tostring(index)])
arguments.seriesTitles[index] = args[string.gsub(cfg.localization.yTitle, '#', tostring(index))] or ('y' .. tostring(index))
index = index + 1
end
-- ignore stacked charts if there is only one series
if #arguments.y == 1 then arguments.is_stacked = false end
-- read axes arguments
read_ax_arguments(args, 'x', arguments)
read_ax_arguments(args, 'y', arguments)
-- get marks colors, default palette is category10,
-- if colors is not the name of a predefined palette then read it as an array of colors
arguments.colors = args[cfg.localization.colors] or "category10"
if not cfg.colors_palette[arguments.colors] then
arguments.colors = stringArray(arguments.colors)
elseif arguments.colors ~="category10" and arguments.colors ~="category20" then
arguments.colors = generate_color_palette(arguments.colors)
end
-- assure that colors, stroke_thickness and symbols table are at least the same lenght that the number of
-- y series
if isTable(arguments.colors) then arguments.colors = extend_table(arguments.colors, #arguments.y) end
if isTable(arguments.stroke_thickness) then arguments.stroke_thickness = extend_table(arguments.stroke_thickness, #arguments.y) end
if isTable(arguments.symbols) then arguments.symbols = extend_table(arguments.symbols, #arguments.y) end
-- if there is at least one color in the format "#aarrggbb", create a transparency (alpha) scale
if isTable(arguments.colors) then
alphas = {}
local hasAlpha = false
for i, color in ipairs(arguments.colors) do
local a, rgb = string.match(color, "#(%x%x)(%x%x%x%x%x%x)")
if a then
hasAlpha = true
alphas[i] = tostring(tonumber(a, 16) / 255.0)
arguments.colors[i] = "#" .. rgb
else
alphas[i] = "1"
end
end
for i = #arguments.colors + 1, #arguments.y do alphas[i] = "1" end
if hasAlpha then arguments.alphas = alphas end
elseif args[cfg.localization.alpha] then
arguments.alphas = stringArray(args[cfg.localization.alpha])
if arguments.alphas then
for i,a in ipairs(arguments.alphas) do arguments.alphas[i] = tostring(tonumber(a, 16) / 255.0) end
arguments.alphas = extend_table(arguments.alphas, #arguments.y)
end
end
arguments.colorsByGroup = return_yes_value(args[cfg.localization.colorsByGroup])
local chart_json = p.chart_json(arguments)
if args[cfg.localization.debug_json] then return frame:extensionTag('syntaxhighlight', chart_json) end
local external_legend
if args[cfg.localization.external_legend] then
external_legend = build_legend(arguments.colors, arguments.seriesTitles, args[cfg.localization.external_legend],
args[cfg.localization.nCols])
end
local chart = frame:extensionTag('graph', chart_json)
local align = args[cfg.localization.thumb]
return wrap_graph(chart, external_legend, align, arguments.graphwidth) .. errors_output(args.NoTracking)
end
return p