if not modules then modules = { } end modules ['trac-inf'] = {
version = 1.001,
comment = "companion to trac-inf.mkiv",
author = "Hans Hagen, PRAGMA-ADE, Hasselt NL",
copyright = "PRAGMA ADE / ConTeXt Development Team",
license = "see context related readme files"
}
-- As we want to protect the global tables, we no longer store the timing
-- in the tables themselves but in a hidden timers table so that we don't
-- get warnings about assignments. This is more efficient than using rawset
-- and rawget.
local type, tonumber, select = type, tonumber, select
local format, lower, find = string.format, string.lower, string.find
local concat = table.concat
local clock = os.gettimeofday or os.clock -- should go in environment
local setmetatableindex = table.setmetatableindex
local serialize = table.serialize
local formatters = string.formatters
statistics = statistics or { }
local statistics = statistics
statistics.enable = true
statistics.threshold = 0.01
local statusinfo, n, registered, timers = { }, 0, { }, { }
setmetatableindex(timers,function(t,k)
local v = { timing = 0, loadtime = 0, offset = 0 }
t[k] = v
return v
end)
local function hastiming(instance)
return instance and timers[instance]
end
local function resettiming(instance)
timers[instance or "notimer"] = { timing = 0, loadtime = 0, offset = 0 }
end
local ticks = clock
local seconds = function(n) return n or 0 end
if os.type ~= "windows" then
-- doesn't work well yet on unix (system time vs process time so a mtxrun
-- timing with nested call gives the wrong result)
elseif lua.getpreciseticks then
ticks = lua.getpreciseticks
seconds = lua.getpreciseseconds
elseif FFISUPPORTED then
-- Do we really care when not in luametatex? For now we do, so:
local okay, kernel = pcall(ffi.load,"kernel32")
if kernel then
local tonumber = ffi.number or tonumber
ffi.cdef[[
int QueryPerformanceFrequency(int64_t *lpFrequency);
int QueryPerformanceCounter(int64_t *lpPerformanceCount);
]]
local target = ffi.new("__int64[1]")
ticks = function()
if kernel.QueryPerformanceCounter(target) == 1 then
return tonumber(target[0])
else
return 0
end
end
local target = ffi.new("__int64[1]")
seconds = function(ticks)
if kernel.QueryPerformanceFrequency(target) == 1 then
return ticks / tonumber(target[0])
else
return 0
end
end
end
else
-- excessive timing costs some 1-2 percent runtime
end
local function starttiming(instance,reset)
local timer = timers[instance or "notimer"]
local it = timer.timing
if reset then
it = 0
timer.loadtime = 0
end
if it == 0 then
timer.starttime = ticks()
if not timer.loadtime then
timer.loadtime = 0
end
end
timer.timing = it + 1
end
local function stoptiming(instance)
local timer = timers[instance or "notimer"]
local it = timer.timing
if it > 1 then
timer.timing = it - 1
else
local starttime = timer.starttime
if starttime and starttime > 0 then
local stoptime = ticks()
local loadtime = stoptime - starttime
timer.stoptime = stoptime
timer.loadtime = timer.loadtime + loadtime
timer.timing = 0
timer.starttime = 0
end
end
end
local function benchmarktimer(instance)
local timer = timers[instance or "notimer"]
local it = timer.timing
if it > 1 then
timer.timing = it - 1
else
local starttime = timer.starttime
if starttime and starttime > 0 then
timer.offset = ticks() - starttime
else
timer.offset = 0
end
end
end
local function elapsed(instance)
if type(instance) == "number" then
return instance
else
local timer = timers[instance or "notimer"]
return timer and seconds(timer.loadtime - 2*(timer.offset or 0)) or 0
end
end
local function currenttime(instance)
if type(instance) == "number" then
return instance
else
local timer = timers[instance or "notimer"]
local it = timer.timing
if it > 1 then
-- whatever
else
local starttime = timer.starttime
if starttime and starttime > 0 then
return seconds(timer.loadtime + ticks() - starttime - 2*(timer.offset or 0))
end
end
return 0
end
end
local function elapsedtime(instance)
return format("%0.3f",elapsed(instance))
end
local function elapsedindeed(instance)
return elapsed(instance) > statistics.threshold
end
local function elapsedseconds(instance,rest) -- returns nil if 0 seconds
if elapsedindeed(instance) then
return format("%0.3f seconds %s", elapsed(instance),rest or "")
end
end
statistics.hastiming = hastiming
statistics.resettiming = resettiming
statistics.starttiming = starttiming
statistics.stoptiming = stoptiming
statistics.currenttime = currenttime
statistics.elapsed = elapsed
statistics.elapsedtime = elapsedtime
statistics.elapsedindeed = elapsedindeed
statistics.elapsedseconds = elapsedseconds
statistics.benchmarktimer = benchmarktimer
-- general function .. we might split this module
function statistics.register(tag,fnc)
if statistics.enable and type(fnc) == "function" then
local rt = registered[tag] or (#statusinfo + 1)
statusinfo[rt] = { tag, fnc }
registered[tag] = rt
if #tag > n then n = #tag end
end
end
local report = logs.reporter("mkiv lua stats")
function statistics.show()
if statistics.enable then
-- this code will move
local register = statistics.register
register("used platform", function()
return format("%s, type: %s, binary subtree: %s",
os.platform or "unknown",os.type or "unknown", environment.texos or "unknown")
end)
register("used engine", function()
return format("%s version: %s, functionality level: %s, banner: %s",
LUATEXENGINE, LUATEXVERSION, LUATEXFUNCTIONALITY, lower(status.banner))
end)
register("used hash slots", function()
return format("%s of %s + %s", status.cs_count, status.hash_size,status.hash_extra)
end)
register("callbacks", statistics.callbacks)
if JITSUPPORTED then
local jitstatus = jit.status
if jitstatus then
local jitstatus = { jitstatus() }
if jitstatus[1] then
register("luajit options", concat(jitstatus," ",2))
end
end
end
-- so far
register("lua properties",function()
local hash = 2^status.luatex_hashchars
local mask = load([[τεχ = 1]]) and "utf" or "ascii"
return format("engine: %s %s, used memory: %s, hash chars: min(%i,40), symbol mask: %s (%s)",
jit and "luajit" or "lua", LUAVERSION, statistics.memused(), hash, mask, mask == "utf" and "τεχ" or "tex")
end)
register("runtime",statistics.runtime)
logs.newline() -- initial newline
for i=1,#statusinfo do
local s = statusinfo[i]
local r = s[2]()
if r then
report("%s: %s",s[1],r)
end
end
-- logs.newline() -- final newline
statistics.enable = false
end
end
function statistics.memused() -- no math.round yet -)
local round = math.round or math.floor
return format("%s MB, ctx: %s MB, max: %s MB",
round(collectgarbage("count")/1000),
round(status.luastate_bytes/1000000),
status.luastate_bytes_max and round(status.luastate_bytes_max/1000000) or "unknown"
)
end
starttiming(statistics)
function statistics.formatruntime(runtime) -- indirect so it can be overloaded and
return format("%s seconds", runtime) -- indeed that happens in cure-uti.lua
end
function statistics.runtime()
stoptiming(statistics)
-- stoptiming(statistics) -- somehow we can start the timer twice, but where
local runtime = lua.getruntime and lua.getruntime() or elapsedtime(statistics)
return statistics.formatruntime(runtime)
end
local report = logs.reporter("system")
function statistics.timed(action,all)
starttiming("run")
action()
stoptiming("run")
local runtime = tonumber(elapsedtime("run"))
if all then
local alltime = tonumber(lua.getruntime and lua.getruntime() or elapsedtime(statistics))
if alltime and alltime > 0 then
report("total runtime: %0.3f seconds of %0.3f seconds",runtime,alltime)
return
end
end
report("total runtime: %0.3f seconds",runtime)
end
-- goodie
function statistics.tracefunction(base,tag,...)
for i=1,select("#",...) do
local name = select(i,...)
local stat = { }
local func = base[name]
setmetatableindex(stat,function(t,k) t[k] = 0 return 0 end)
base[name] = function(n,k,v) stat[k] = stat[k] + 1 return func(n,k,v) end
statistics.register(formatters["%s.%s"](tag,name),function() return serialize(stat,"calls") end)
end
end
function status.getreadstate()
return {
filename = status.filename or "?",
linenumber = status.linenumber or 0,
iocode = status.inputid or 0,
}
end