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lib/excoveralls/local.ex

defmodule ExCoveralls.Local do
@moduledoc """
Locally displays the result to screen.
"""
defmodule Count do
@moduledoc """
Stores count information for calculating coverage values.
"""
defstruct lines: 0, relevant: 0, covered: 0
end
@doc """
Provides an entry point for the module.
"""
def execute(stats, options \\ []) do
print_summary(stats, options)
if options[:detail] == true do
source(stats, options[:filter]) |> IO.puts
end
ExCoveralls.Stats.ensure_minimum_coverage(stats)
end
@doc """
Format the source code with color for the files that matches with
the specified patterns.
"""
def source(stats, _patterns = nil), do: source(stats)
def source(stats, _patterns = []), do: source(stats)
def source(stats, patterns) do
Enum.filter(stats, fn(stat) -> String.contains?(stat[:name], patterns) end) |> source
end
def source(stats) do
stats |> Enum.map(&format_source/1)
|> Enum.join("\n")
end
@doc """
Prints summary statistics for given coverage.
"""
def print_summary(stats, options \\ []) do
enabled = ExCoveralls.Settings.get_print_summary
if enabled do
file_width = ExCoveralls.Settings.get_file_col_width
IO.puts "----------------"
IO.puts print_string("~-6s ~-#{file_width}s ~8s ~8s ~8s", ["COV", "FILE", "LINES", "RELEVANT", "MISSED"])
coverage(stats, options) |> IO.puts
IO.puts "----------------"
end
end
defp format_source(stat) do
"\n\e[33m--------#{stat[:name]}--------\e[m\n" <> colorize(stat)
end
defp colorize(%{name: _name, source: source, coverage: coverage}) do
lines = String.split(source, "\n")
Enum.zip(lines, coverage)
|> Enum.map(&do_colorize/1)
|> Enum.join("\n")
end
defp do_colorize({line, coverage}) do
case coverage do
nil -> line
0 -> "\e[31m#{line}\e[m"
_ -> "\e[32m#{line}\e[m"
end
end
@doc """
Format the source coverage stats into string.
"""
def coverage(stats, options \\ []) do
count_info = Enum.map(stats, fn(stat) -> [stat, calculate_count(stat[:coverage])] end)
count_info = sort(count_info, options)
Enum.join(format_body(count_info), "\n") <> "\n" <> format_total(count_info)
end
defp sort(count_info, options) do
if options[:sort] do
sort_order = parse_sort_options(options)
flattened =
Enum.map(count_info, fn original ->
[stat, count] = original
%{
"cov" => get_coverage(count),
"file" => stat[:name],
"lines" => count.lines,
"relevant" => count.relevant,
"missed" => count.relevant - count.covered,
:_original => original
}
end)
sorted =
Enum.reduce(sort_order, flattened, fn {key, comparator}, acc ->
Enum.sort(acc, fn(x, y) ->
args = [x[key], y[key]]
apply(Kernel, comparator, args)
end)
end)
Enum.map(sorted, fn flattened -> flattened[:_original] end)
else
Enum.sort(count_info, fn([x, _], [y, _]) -> x[:name] <= y[:name] end)
end
end
defp parse_sort_options(options) do
sort_order =
options[:sort]
|> String.split(",")
|> Enum.reverse()
Enum.map(sort_order, fn sort_chunk ->
case String.split(sort_chunk, ":") do
[key, "asc"] -> {key, :<=}
[key, "desc"] -> {key, :>=}
[key] -> {key, :>=}
end
end)
end
defp format_body(info) do
Enum.map(info, &format_info/1)
end
defp format_info([stat, count]) do
coverage = get_coverage(count)
file_width = ExCoveralls.Settings.get_file_col_width
print_string("~5.1f% ~-#{file_width}s ~8w ~8w ~8w",
[coverage, stat[:name], count.lines, count.relevant, count.relevant - count.covered])
end
defp format_total(info) do
totals = Enum.reduce(info, %Count{}, fn([_, count], acc) -> append(count, acc) end)
coverage = get_coverage(totals)
print_string("[TOTAL] ~5.1f%", [coverage])
end
defp append(a, b) do
%Count{
lines: a.lines + b.lines,
relevant: a.relevant + b.relevant,
covered: a.covered + b.covered
}
end
defp get_coverage(count) do
case count.relevant do
0 -> default_coverage_value()
_ -> (count.covered / count.relevant) * 100
end
end
defp default_coverage_value do
options = ExCoveralls.Settings.get_coverage_options
case Map.fetch(options, "treat_no_relevant_lines_as_covered") do
{:ok, false} -> 0.0
_ -> 100.0
end
end
@doc """
Calucate count information from thhe coverage stats.
"""
def calculate_count(coverage) do
do_calculate_count(coverage, 0, 0, 0)
end
defp do_calculate_count([], lines, relevant, covered) do
%Count{lines: lines, relevant: relevant, covered: covered}
end
defp do_calculate_count([h|t], lines, relevant, covered) do
case h do
nil -> do_calculate_count(t, lines + 1, relevant, covered)
0 -> do_calculate_count(t, lines + 1, relevant + 1, covered)
n when is_number(n)
-> do_calculate_count(t, lines + 1, relevant + 1, covered + 1)
_ -> raise "Invalid data - #{h}"
end
end
defp print_string(format, params) do
char_list = :io_lib.format(format, params)
List.to_string(char_list)
end
end