+++ foldr1 (+++) (map (htmlGenModTable results args) per_module_result_tab)
htmlGenProgTable :: [ResultTable] -> [String] -> PerProgTableSpec -> Html
-htmlGenProgTable results args (SpecP title _ anc get_result get_status result_ok)
- = sectHeading title anc
+htmlGenProgTable results args (SpecP long_name _ anc get_result get_status result_ok)
+ = sectHeading long_name anc
+++ font <! [size "1"]
<< mkTable (htmlShowResults results args get_result get_status result_ok)
+++ hr
htmlGenModTable :: [ResultTable] -> [String] -> PerModuleTableSpec -> Html
-htmlGenModTable results args (SpecM title anc get_result result_ok)
- = sectHeading title anc
+htmlGenModTable results args (SpecM long_name anc get_result result_ok)
+ = sectHeading long_name anc
+++ font <![size "1"]
<< mkTable (htmlShowMultiResults results args get_result result_ok)
+++ hr
-> (a -> Bool)
-> HtmlTable
+htmlShowResults [] _ _ _ _
+ = error "htmlShowResults: Can't happen?"
htmlShowResults (r:rs) ss f stat result_ok
= tabHeader ss
</> aboves (zipWith tableRow [1..] results_per_prog)
-> (a -> Bool)
-> HtmlTable
+htmlShowMultiResults [] _ _ _
+ = error "htmlShowMultiResults: Can't happen?"
htmlShowMultiResults (r:rs) ss f result_ok =
multiTabHeader ss
</> aboves (map show_results_for_prog results_per_prog_mod_run)
<-> tableRow (-1) ("", highs)])
++ [td << bold << "Average"
<-> tableRow (-1) ("", gms)])
-
where
base_results = Map.toList r :: [(String,Results)]
| even row_no = bgcolor even_row_color
| otherwise = bgcolor odd_row_color
+left_column_color, odd_row_color, even_row_color, average_row_color :: String
left_column_color = "#d0d0ff" -- light blue
odd_row_color = "#d0d0ff" -- light blue
even_row_color = "#f0f0ff" -- v. light blue
-- Calculate a color ranging from bright blue for -100% to bright red for +100%.
calcColor :: Int -> String
-calcColor percentage | percentage >= 0 = "#" ++ (showHex val 2 "0000")
- | otherwise = "#0000" ++ (showHex val 2 "")
+calcColor percentage | percentage >= 0 = printf "#%02x0000" val
+ | otherwise = printf "#0000%02x" val
where val = abs percentage * 255 `div` 100
-showHex 0 f s = if f > 0 then take f (repeat '0') ++ s else s
-showHex i f s = showHex (i `div` 16) (f-1) (hexDig (i `mod` 16) : s)
-
-hexDig i | i > 10 = chr (i-10 + ord 'a')
- | otherwise = chr (i + ord '0')
-
-----------------------------------------------------------------------------
-- LaTeX table generation (just the summary for now)
-latexOutput results args summary_spec summary_rows =
+latexOutput :: [ResultTable] -> [String] -> [PerProgTableSpec]
+ -> Maybe [String] -> String
+latexOutput results _ summary_spec summary_rows =
(if (length results == 2)
then ascii_summary_table True results summary_spec summary_rows
. str "\n\n"
-----------------------------------------------------------------------------
-- ASCII page generation
+asciiPage :: [ResultTable] -> [String] -> [PerProgTableSpec] -> Maybe [String]
+ -> String
asciiPage results args summary_spec summary_rows =
( str reportTitle
. str "\n\n"
. interleave "\n\n" (map (asciiGenModTable results args) per_module_result_tab)
) "\n"
-asciiGenProgTable results args (SpecP title _ anc get_result get_status result_ok)
- = str title
+asciiGenProgTable :: [ResultTable] -> [String] -> PerProgTableSpec -> ShowS
+asciiGenProgTable results args (SpecP long_name _ _ get_result get_status result_ok)
+ = str long_name
. str "\n"
. ascii_show_results results args get_result get_status result_ok
-asciiGenModTable results args (SpecM title anc get_result result_ok)
- = str title
+asciiGenModTable :: [ResultTable] -> [String] -> PerModuleTableSpec -> ShowS
+asciiGenModTable results args (SpecM long_name _ get_result result_ok)
+ = str long_name
. str "\n"
. ascii_show_multi_results results args get_result result_ok
-ascii_header width ss
+ascii_header :: Int -> [String] -> ShowS
+ascii_header w ss
= str "\n-------------------------------------------------------------------------------\n"
. str (rjustify 15 "Program")
. str (space 5)
- . foldr (.) id (map (str . rjustify width) ss)
+ . foldr (.) id (map (str . rjustify w) ss)
. str "\n-------------------------------------------------------------------------------\n"
ascii_show_results
-> (a -> Bool)
-> ShowS
+ascii_show_results [] _ _ _ _
+ = error "ascii_show_results: Can't happen?"
ascii_show_results (r:rs) ss f stat result_ok
= ascii_header fIELD_WIDTH ss
. interleave "\n" (map show_per_prog_results results_per_prog)
-> [PerProgTableSpec]
-> Maybe [String]
-> ShowS
+ascii_summary_table _ [] _ _
+ = error "ascii_summary_table: Can't happen?"
+ascii_summary_table _ [_] _ _
+ = error "ascii_summary_table: Can't happen?"
ascii_summary_table latex (r1:r2:_) specs mb_restrict
| latex = makeLatexTable (rows ++ TableLine : av_rows)
| otherwise =
- makeTable (table_layout (length specs) width)
- (TableLine : TableRow header : TableLine : rows ++ TableLine : av_rows)
+ makeTable (table_layout (length specs) w)
+ (TableLine : TableRow header_row :
+ TableLine : rows ++
+ TableLine : av_rows)
where
- header = BoxString "Program" : map BoxString headings
+ header_row = BoxString "Program" : map BoxString headings
(headings, columns, av_cols) = unzip3 (map calc_col specs)
av_heads = [BoxString "Min", BoxString "Max", BoxString "Geometric Mean"]
| otherwise = rows1
av_rows = map TableRow (zipWith (:) av_heads (transpose av_cols))
- width = 10
+ w = 10
calc_col (SpecP _ heading _ getr gets ok)
-- throw away the baseline result
transchar '_' s = '\\':'_':s
transchar c s = c:s
-table_layout n width =
+table_layout :: Int -> Int -> Layout
+table_layout n w =
(str . rjustify 15) :
- (\s -> str (space 5) . str (rjustify width s)) :
- replicate (n-1) (str . rjustify width)
+ (\s -> str (space 5) . str (rjustify w s)) :
+ replicate (n-1) (str . rjustify w)
ascii_show_multi_results
:: Result a
-> (a -> Bool)
-> ShowS
+ascii_show_multi_results [] _ _ _
+ = error "ascii_show_multi_results: Can't happen?"
ascii_show_multi_results (r:rs) ss f result_ok
= ascii_header fIELD_WIDTH ss
. interleave "\n" (map show_results_for_prog results_per_prog_mod_run)
show_per_prog_results :: (String, [BoxValue]) -> ShowS
show_per_prog_results = show_per_prog_results_width fIELD_WIDTH
-show_per_prog_results_width width (prog,results)
+show_per_prog_results_width :: Int -> (String, [BoxValue]) -> ShowS
+show_per_prog_results_width w (prog,results)
= str (rjustify 15 prog)
. str (space 5)
- . foldr (.) id (map (str . rjustify width . showBox) results)
+ . foldr (.) id (map (str . rjustify w . showBox) results)
-- ---------------------------------------------------------------------------
-- Generic stuff for results generation
-> (String,[BoxValue])
calc_result rts get_maybe_a get_stat result_ok (prog,base_r) =
- (prog, (just_result baseline base_stat :
+ (prog, (just_result m_baseline base_stat :
let
rts' = map (\rt -> get_stuff (Map.lookup prog rt)) rts
get_stuff (Just r) = (get_maybe_a r, get_stat r)
in
(
- case baseline of
- Just base | result_ok base
- -> map (\(r,s) -> percentage r s base) rts'
- _other
- -> map (\(r,s) -> just_result r s) rts'
+ case m_baseline of
+ Just baseline
+ | result_ok baseline
+ -> map (\(r,s) -> percentage r s baseline) rts'
+ _ -> map (\(r,s) -> just_result r s) rts'
)))
where
- baseline = get_maybe_a base_r
+ m_baseline = get_maybe_a base_r
base_stat = get_stat base_r
just_result Nothing s = RunFailed s
just_result (Just a) _ = toBox a
percentage Nothing s _ = RunFailed s
- percentage (Just a) _ base = Percentage
- (convert_to_percentage base a)
+ percentage (Just a) _ baseline
+ = Percentage (convert_to_percentage baseline a)
-----------------------------------------------------------------------------
-- Calculating geometric means and standard deviations
-- We assume an Int is a size, and print it in kilobytes.
instance Result Int where
- convert_to_percentage 0 _ = 100
- convert_to_percentage base size
- = (fromIntegral size / fromIntegral base) * 100
+ convert_to_percentage 0 _ = 100
+ convert_to_percentage baseline val
+ = (fromIntegral val / fromIntegral baseline) * 100
toBox = BoxInt
instance Result Integer where
- convert_to_percentage 0 _ = 100
- convert_to_percentage base size
- = (fromInteger size / fromInteger base) * 100
+ convert_to_percentage 0 _ = 100
+ convert_to_percentage baseline val
+ = (fromInteger val / fromInteger baseline) * 100
toBox = BoxInteger
instance Result Float where
- convert_to_percentage 0.0 _ = 100.0
- convert_to_percentage base size = size / base * 100
+ convert_to_percentage 0.0 _ = 100.0
+ convert_to_percentage baseline val = val / baseline * 100
toBox = BoxFloat
showBox :: BoxValue -> String
showBox (RunFailed stat) = show_stat stat
-showBox (Percentage f) = printf "%+.1f%%" (f-100)
+showBox (Percentage f) = case printf "%.1f%%" (f-100) of
+ xs@('-':_) -> xs
+ xs -> '+':xs
showBox (BoxFloat f) = printf "%.2f" f
showBox (BoxInt n) = show (n `div` 1024) ++ "k"
showBox (BoxInteger n) = show (n `div` 1024) ++ "k"
-- General Utils
split :: Char -> String -> [String]
-split c s = case rest of
- [] -> [chunk]
- _:rest -> chunk : split c rest
- where (chunk, rest) = break (==c) s
+split c s = case break (==c) s of
+ (chunk, rest) ->
+ case rest of
+ [] -> [chunk]
+ _:rest' -> chunk : split c rest'
str :: String -> ShowS
str = showString