This commit is contained in:
Ollo 2022-01-21 21:28:50 +01:00
commit b9300048da
54 changed files with 10931 additions and 1390 deletions

3
.gitignore vendored
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@ -1,3 +1,6 @@
wlancfg.lua wlancfg.lua
config.lua
simulation.config.lua
*.swp *.swp
unit/testTimesMarchOctoberWithAllSeconds.lua unit/testTimesMarchOctoberWithAllSeconds.lua
diet/*

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@ -11,18 +11,25 @@ cd os/
./flash.sh ttyUSB0 ./flash.sh ttyUSB0
</pre> </pre>
Reboot the ESP, with a serial terminal, Connect to the ESP via a terminal emulator like screen using a baud rate of 115200. Then format the filesystem and reboot the ESP with the following commands:
format the filesystem with the following command and reboot it:
<pre> <pre>
file.format() file.format()
node.reboot() node.restart()
</pre> </pre>
Then disconnect the serial terminal and copy the required files to the microcontroller: Then disconnect the serial terminal and copy the required files to the microcontroller:
<pre> <pre>
./tools/initialFlash.sh /dev/ttyUSB0 ./tools/initialDietFlash.sh /dev/ttyUSB0
</pre> </pre>
Install the optional packages:
<pre>
./tools/initialDietFlash.sh /dev/ttyUSB0 mqtt.lua
./tools/initialDietFlash.sh /dev/ttyUSB0 ds18b20.lua
</pre>
### Upgrade ### Upgrade
Determine the IP address of your clock and execute the following script: Determine the IP address of your clock and execute the following script:
@ -30,5 +37,69 @@ Determine the IP address of your clock and execute the following script:
./tools/remoteFlash.sh IP-Address ./tools/remoteFlash.sh IP-Address
</pre> </pre>
## Internal Setup ## Hardware Setup
Mandatory:
* GPIO2 LEDs * GPIO2 LEDs
* GPIO0 Bootloader (at start)
* GPIO0 factory reset (long during operation)
Optional:
* ADC VT93N2, 48k light resistor
* GPIO4 DS18B20 Temperatur sensor
## MQTT Interface
### Status
* **basetopic**/brightness **Current brightness in percent**
* **basetopic**/background **Current background color**
* **basetopic**/color **Current foreground color**
* **basetopic**/color1 **Current foreground color for first minute**
* **basetopic**/color2 **Current foreground color for second minute**
* **basetopic**/color3 **Current foreground color for third minute**
* **basetopic**/color4 **Current foreground color for fourth minute**
* **basetopic**/row1 **Current background color**
* **basetopic**/temp **Temperatur**
### Commands
* **basetopic**/cmd/single
* ON **Set brightness to 100%**
* OFF **Set brightness to 0%**
* 0-100 **Set brightness to given value**
* #rrggbb **Background color is set to hex representation of red, green and blue**
* 0-255,0-255,0-255 **Background color is set to decimal representation of red, green an blue**
* **basetopic**/cmd/color
* 0-255,0-255,0-255 **Foreground color is set to decimal representation of red, green an blue**
* **basetopic**/cmd/color1
* 0-255,0-255,0-255 **Foreground color for first minute is set to decimal representation of red, green an blue**
* **basetopic**/cmd/color2
* 0-255,0-255,0-255 **Foreground color for second minute is set to decimal representation of red, green an blue**
* **basetopic**/cmd/color3
* 0-255,0-255,0-255 **Foreground color for third minute is set to decimal representation of red, green an blue**
* **basetopic**/cmd/color4
* 0-255,0-255,0-255 **Foreground color for fourth minute is set to decimal representation of red, green an blue**
* **basetopic**/cmd/telnet
* ignored **Stop MQTT server, clock and start telnetserver at port 23**
* **basetopic**/cmd/row1
* 0-255,0-255,0-255 **Background color is set to decimal representation of red, green an blue**
* **basetopic**/cmd/row1
* 0-255,0-255,0-255 **Background color is set to decimal representation of red, green an blue**
* **basetopic**/cmd/row2
* 0-255,0-255,0-255 **Background color is set to decimal representation of red, green an blue**
* **basetopic**/cmd/row3
* 0-255,0-255,0-255 **Background color is set to decimal representation of red, green an blue**
* For all rows...
* **basetopic**/cmd/row10
* 0-255,0-255,0-255 **Background color is set to decimal representation of red, green an blue**
## OpenHAB2
Tested MQTT with binding-mqtt 2.5.x
### Configuration
```
Thing mqtt:topic:wordclock "Wordclock" (mqtt:broker) @ "MQTT" {
Channels:
Type dimmer : dim "Dimming" [ stateTopic="basetopic/brightness", commandTopic="basetopic/cmd/single" ]
Type string : cmd "Command" [ commandTopic="basetopic/cmd/single" ]
Type switch : active "Active" [ commandTopic="basetopic/cmd/single" ]
Type colorRGB : background "Background" [ stateTopic="basetopic/background", commandTopic="basetopic/cmd/single", on="28,0,0", off="0,0,0" ]
}
```

186
commands.lua Normal file
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@ -0,0 +1,186 @@
function storeConfig(_ssid, _password, _timezoneoffset, _sntpserver, _inv46, _dim, _fcolor, _colorMin1, _colorMin2, _colorMin3, _colorMin4, _bcolor, _threequater)
if ( (_ssid == nil) and
(_password == nil) and
(_timezoneoffset == nil) and
(_sntpserver == nil) and
(_inv46 == nil) and
(_dim == nil) and
(_fcolor == nil) and
(_colorMin1 == nil) and
(_colorMin2 == nil) and
(_colorMin3 == nil) and
(_colorMin4 == nil) and
(_bcolor == nil) and
(_threequater == nil) ) then
print("one parameter is mandatory:")
print("storeConfig(ssid, ")
print(" password,")
print(" timezoneoffset,")
print(" sntpserver,")
print(" inv46,")
print(" dim,")
print(" fcolor,")
print(" colorMin1,")
print(" colorMin2,")
print(" colorMin3,")
print(" colorMin4,")
print(" bcolor,")
print(" threequater)")
print(" ")
print("e.g.:")
print('storeConfig(nil, nil, 1, nil, "on", true, "00FF00", "00FF88", "008888", "00FF44", "004488", "000000", true)')
return
end
if (_password==nil) then
_, password, _, _ = wifi.sta.getconfig()
print("Restore password")
else
password = _password
end
if (_ssid==nil) then
ssid, _, _, _ = wifi.sta.getconfig()
else
ssid = _ssid
end
if (_sntpserver == nil) then
sntpserver = sntpserverhostname
print("Restore SNTP: " .. tostring(sntpserver))
else
sntpserver = _sntpserver
end
if (_timezoneoffset ~= nil) then
timezoneoffset = _timezoneoffset
end
if (_inv46 ~= nil) then
if ((_inv46 == true) or (_inv == "on")) then
inv46 = "on"
elseif ((_inv46 == false) or (_inv == "off")) then
inv46 = "off"
else
inv46 = "off"
end
end
if ( _dim ~= nil) then
dim = _dim
end
if (_fcolor ~= nil) then
fcolor = _fcolor
end
if (_bcolor ~= nil) then
bcolor = _bcolor
end
if (_colorMin1 ~= nil) then
colorMin1 = _colorMin1
end
if (_colorMin2 ~= nil) then
colorMin2 = _colorMin2
end
if (_colorMin3 ~= nil) then
colorMin3 = _colorMin3
end
if (_colorMin4 ~= nil) then
colorMin4 = _colorMin4
end
if (_threequater ~= nil) then
threequater = _threequater
end
print("SSID = " .. tostring(ssid))
print("TZNE = " .. tostring(timezoneoffset))
print("NTP = " .. tostring(sntpserver))
print("INVT = " .. tostring(inv46))
print("DIM = " .. tostring(dim))
print("FCOL = " .. tostring(fcolor))
print("BCOL = " .. tostring(bcolor))
print("MIN1 = " .. tostring(colorMin1))
print("MIN2 = " .. tostring(colorMin2))
print("MIN3 = " .. tostring(colorMin3))
print("MIN4 = " .. tostring(colorMin4))
print("3QRT = " .. tostring(threequater))
local configFile="config.lua"
-- Safe configuration:
file.remove(configFile .. ".new")
sec, _ = rtctime.get()
file.open(configFile.. ".new", "w+")
file.write("-- Config\n" .. "station_cfg={}\nstation_cfg.ssid=\"" .. ssid .. "\"\nstation_cfg.pwd=\"" .. password .. "\"\nstation_cfg.save=false\nwifi.sta.config(station_cfg)\n")
file.write("sntpserverhostname=\"" .. sntpserver .. "\"\n" .. "timezoneoffset=\"" .. timezoneoffset .. "\"\n".. "inv46=\"" .. tostring(inv46) .. "\"\n" .. "dim=\"" .. tostring(dim) .. "\"\n")
if (fcolor ~= nil) then
local hexColor=string.sub(fcolor, 1)
local red = tonumber(string.sub(hexColor, 1, 2), 16)
local green = tonumber(string.sub(hexColor, 3, 4), 16)
local blue = tonumber(string.sub(hexColor, 5, 6), 16)
file.write("color=string.char(" .. green .. "," .. red .. "," .. blue .. ")\n")
-- fill the current values
color=string.char(green, red, blue)
end
if (colorMin1 ~= nil) then
local hexColor=string.sub(colorMin1, 1)
local red = tonumber(string.sub(hexColor, 1, 2), 16)
local green = tonumber(string.sub(hexColor, 3, 4), 16)
local blue = tonumber(string.sub(hexColor, 5, 6), 16)
file.write("color1=string.char(" .. green .. "," .. red .. "," .. blue .. ")\n")
color1=string.char(green, red, blue)
end
if ( colorMin2 ~= nil) then
local hexColor=string.sub(colorMin2, 1)
local red = tonumber(string.sub(hexColor, 1, 2), 16)
local green = tonumber(string.sub(hexColor, 3, 4), 16)
local blue = tonumber(string.sub(hexColor, 5, 6), 16)
file.write("color2=string.char(" .. green .. "," .. red .. "," .. blue .. ")\n")
color2=string.char(green, red, blue)
end
if ( colorMin3 ~= nil) then
local hexColor=string.sub(colorMin3, 1)
local red = tonumber(string.sub(hexColor, 1, 2), 16)
local green = tonumber(string.sub(hexColor, 3, 4), 16)
local blue = tonumber(string.sub(hexColor, 5, 6), 16)
file.write("color3=string.char(" .. green .. "," .. red .. "," .. blue .. ")\n")
color3=string.char(green, red, blue)
end
if ( colorMin4 ~= nil) then
local hexColor=string.sub(colorMin4, 1)
local red = tonumber(string.sub(hexColor, 1, 2), 16)
local green = tonumber(string.sub(hexColor, 3, 4), 16)
local blue = tonumber(string.sub(hexColor, 5, 6), 16)
file.write("color4=string.char(" .. green .. "," .. red .. "," .. blue .. ")\n")
color4=string.char(green, red, blue)
end
if ( bcolor ~= nil) then
local hexColor=string.sub(bcolor, 1)
local red = tonumber(string.sub(hexColor, 1, 2), 16)
local green = tonumber(string.sub(hexColor, 3, 4), 16)
local blue = tonumber(string.sub(hexColor, 5, 6), 16)
file.write("colorBg=string.char(" .. green .. "," .. red .. "," .. blue .. ")\n")
-- fill the current values
colorBg=string.char(green, red, blue)
end
if (getTime ~= nil) then
time = getTime(sec, timezoneoffset)
file.write("print(\"Config from " .. time.year .. "-" .. time.month .. "-" .. time.day .. " " .. time.hour .. ":" .. time.minute .. ":" .. time.second .. "\")\n")
end
if ( threequater ~= nil) then
file.write("threequater=true\n")
-- fill the current values
threequater=true
else
file.write("threequater=nil\n") -- unset threequater
-- fill the current values
threequater=nil
end
file.close()
collectgarbage()
sec=nil
file.remove(configFile)
if (file.rename(configFile .. ".new", configFile)) then
print("Rename Successfully")
else
print("Cannot rename " .. configFile .. ".new")
end
end

268
diet/webserver_diet.lua Normal file
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@ -0,0 +1,268 @@
local o="config.lua"
local n=false
local t=0
function sendPage(o,e,i)
collectgarbage()
print("Sending "..e.." "..t.."B already; "..node.heap().."B in heap")
o:on("sent",function(a)
if(t==0)then
a:close()
print("Page sent")
collectgarbage()
n=false
else
collectgarbage()
sendPage(a,e,i)
end
end)
if file.open(e,"r")then
local e=""
if(t<=0)then
e=e.."HTTP/1.1 200 OK\r\n"
e=e.."Content-Type: text/html\r\n"
e=e.."Connection: close\r\n"
e=e.."Date: Thu, 29 Dec 2016 20:18:20 GMT\r\n"
e=e.."\r\n\r\n"
end
file.seek("set",t)
local a=file.readline()
while(a~=nil)do
if(a:find("$")~=nil)then
if(i~=nil)then
for e,t in pairs(i)
do
a=string.gsub(a,e,t)
end
end
end
t=t+string.len(a)
e=e..a
if((string.len(e)>=500)or(node.heap()<2000))then
a=nil
o:send(e)
print("Sent part of "..t.."B")
return
else
a=file.readline()
end
end
t=0
if(string.len(e)>0)then
o:send(e)
print("Sent rest")
end
end
end
function fillDynamicMap()
replaceMap={}
ssid,_=wifi.sta.getconfig()
if(ssid==nil)then return replaceMap end
if(sntpserverhostname==nil)then sntpserverhostname="ptbtime1.ptb.de"end
if(timezoneoffset==nil)then timezoneoffset=1 end
if(color==nil)then color=string.char(0,0,250)end
if(color1==nil)then color1=color end
if(color2==nil)then color2=color end
if(color3==nil)then color3=color end
if(color4==nil)then color4=color end
if(colorBg==nil)then colorBg=string.char(0,0,0)end
local t="#"..string.format("%02x",string.byte(color,2))..string.format("%02x",string.byte(color,1))..string.format("%02x",string.byte(color,3))
local n="#"..string.format("%02x",string.byte(color1,2))..string.format("%02x",string.byte(color1,1))..string.format("%02x",string.byte(color1,3))
local e="#"..string.format("%02x",string.byte(color2,2))..string.format("%02x",string.byte(color2,1))..string.format("%02x",string.byte(color2,3))
local i="#"..string.format("%02x",string.byte(color3,2))..string.format("%02x",string.byte(color3,1))..string.format("%02x",string.byte(color3,3))
local o="#"..string.format("%02x",string.byte(color4,2))..string.format("%02x",string.byte(color4,1))..string.format("%02x",string.byte(color4,3))
local a="#"..string.format("%02x",string.byte(colorBg,2))..string.format("%02x",string.byte(colorBg,1))..string.format("%02x",string.byte(colorBg,3))
replaceMap["$SSID"]=ssid
replaceMap["$SNTPSERVER"]=sntpserverhostname
replaceMap["$TIMEOFFSET"]=timezoneoffset
replaceMap["$THREEQUATER"]=(threequater and"checked"or"")
replaceMap["$ADDITIONAL_LINE"]=""
replaceMap["$HEXCOLORFG"]=t
replaceMap["$HEXCOLOR1"]=n
replaceMap["$HEXCOLOR2"]=e
replaceMap["$HEXCOLOR3"]=i
replaceMap["$HEXCOLOR4"]=o
replaceMap["$HEXCOLORBG"]=a
replaceMap["$INV46"]=((inv46~=nil and inv46=="on")and"checked"or"")
replaceMap["$AUTODIM"]=((dim~=nil and dim=="on")and"checked"or"")
return replaceMap
end
function startWebServer()
srv=net.createServer(net.TCP)
srv:listen(80,function(i)
i:on("receive",function(t,e)
if(n)then
print("HTTP sending... be patient!")
return
end
if(e:find("GET /")~=nil)then
n=true
if(color==nil)then
color=string.char(0,128,0)
end
ws2812.write(string.char(0,0,0):rep(56)..color:rep(2)..string.char(0,0,0):rep(4)..color:rep(2)..string.char(0,0,0):rep(48))
if(sendPage~=nil)then
print("Sending webpage.html ("..tostring(node.heap()).."B free) ...")
replaceMap=fillDynamicMap()
sendPage(t,"webpage.html",replaceMap)
end
else if(e:find("POST /")~=nil)then
_,postdatastart=e:find("\r\n\r\n")
if postdatastart==nil then postdatastart=1 end
local a=string.sub(e,postdatastart+1)
local e={}
for t,a in string.gmatch(a,"(%w+)=([^&]+)&*")do
e[t]=a
end
if(e.action~=nil and e.action=="Reboot")then
node.restart()
return
end
if((e.ssid~=nil)and(e.sntpserver~=nil)and(e.timezoneoffset~=nil))then
print("New config!")
if(e.password==nil)then
_,password,_,_=wifi.sta.getconfig()
print("Restoring password : "..password)
e.password=password
password=nil
end
file.remove(o..".new")
sec,_=rtctime.get()
file.open(o..".new","w+")
file.write("-- Config\n".."station_cfg={}\nstation_cfg.ssid=\""..e.ssid.."\"\nstation_cfg.pwd=\""..e.password.."\"\nstation_cfg.save=false\nwifi.sta.config(station_cfg)\n")
file.write("sntpserverhostname=\""..e.sntpserver.."\"\n".."timezoneoffset=\""..e.timezoneoffset.."\"\n".."inv46=\""..tostring(e.inv46).."\"\n".."dim=\""..tostring(e.dim).."\"\n")
if(e.fcolor~=nil)then
print("Got fcolor: "..e.fcolor)
local e=string.sub(e.fcolor,4)
local t=tonumber(string.sub(e,1,2),16)
local a=tonumber(string.sub(e,3,4),16)
local e=tonumber(string.sub(e,5,6),16)
file.write("color=string.char("..a..","..t..","..e..")\n")
color=string.char(a,t,e)
end
if(e.colorMin1~=nil)then
local e=string.sub(e.colorMin1,4)
local t=tonumber(string.sub(e,1,2),16)
local a=tonumber(string.sub(e,3,4),16)
local e=tonumber(string.sub(e,5,6),16)
file.write("color1=string.char("..a..","..t..","..e..")\n")
color1=string.char(a,t,e)
end
if(e.colorMin2~=nil)then
local e=string.sub(e.colorMin2,4)
local a=tonumber(string.sub(e,1,2),16)
local t=tonumber(string.sub(e,3,4),16)
local e=tonumber(string.sub(e,5,6),16)
file.write("color2=string.char("..t..","..a..","..e..")\n")
color2=string.char(t,a,e)
end
if(e.colorMin3~=nil)then
local e=string.sub(e.colorMin3,4)
local t=tonumber(string.sub(e,1,2),16)
local a=tonumber(string.sub(e,3,4),16)
local e=tonumber(string.sub(e,5,6),16)
file.write("color3=string.char("..a..","..t..","..e..")\n")
color3=string.char(a,t,e)
end
if(e.colorMin4~=nil)then
local e=string.sub(e.colorMin4,4)
local t=tonumber(string.sub(e,1,2),16)
local a=tonumber(string.sub(e,3,4),16)
local e=tonumber(string.sub(e,5,6),16)
file.write("color4=string.char("..a..","..t..","..e..")\n")
color4=string.char(a,t,e)
end
if(e.bcolor~=nil)then
local e=string.sub(e.bcolor,4)
local t=tonumber(string.sub(e,1,2),16)
local a=tonumber(string.sub(e,3,4),16)
local e=tonumber(string.sub(e,5,6),16)
file.write("colorBg=string.char("..a..","..t..","..e..")\n")
colorBg=string.char(a,t,e)
end
if(getTime~=nil)then
time=getTime(sec,timezoneoffset)
file.write("print(\"Config from "..time.year.."-"..time.month.."-"..time.day.." "..time.hour..":"..time.minute..":"..time.second.."\")\n")
end
if(e.threequater~=nil)then
file.write("threequater=true\n")
threequater=true
else
file.write("threequater=nil\n")
threequater=nil
end
file.close()
collectgarbage()
sec=nil
file.remove(o)
print("Rename config")
if(file.rename(o..".new",o))then
print("Successfully")
local e=tmr.create()
e:register(50,tmr.ALARM_SINGLE,function(e)
replaceMap=fillDynamicMap()
replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"green\">New configuration saved</font></h2>"
print("Send success to client")
sendPage(t,"webpage.html",replaceMap)
e:unregister()
end)
e:start()
else
local e=tmr.create()
e:register(50,tmr.ALARM_SINGLE,function(e)
replaceMap=fillDynamicMap()
replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"red\">ERROR</font></h2>"
sendPage(t,"webpage.html",replaceMap)
e:unregister()
end)
e:start()
end
else
replaceMap=fillDynamicMap()
replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"orange\">Not all parameters set</font></h2>"
sendPage(t,"webpage.html",replaceMap)
end
else
print("Hello via telnet")
global_c=t
function s_output(e)
if(global_c~=nil)
then global_c:send(e)
end
end
node.output(s_output,0)
global_c:on("receive",function(t,e)
node.input(e)
end)
global_c:on("disconnection",function(e)
node.output(nil)
global_c=nil
end)
print("Welcome to Word Clock")
end
end
end)
i:on("disconnection",function(e)
print("Goodbye")
node.output(nil)
collectgarbage()
t=0
end)
end)
end
collectgarbage()
wifi.setmode(wifi.SOFTAP)
cfg={}
cfg.ssid="wordclock"
cfg.pwd="wordclock"
wifi.ap.config(cfg)
local t=string.char(0,128,0)
local e=string.char(0,0,0)
local a=e:rep(6)..t..e:rep(7)..t:rep(3)..e:rep(44)..t:rep(3)..e:rep(50)
ws2812.write(a)
t=nil
e=nil
a=nil
print("Waiting in access point >wordclock< for Clients")
print("Please visit 192.168.4.1")
startWebServer()
collectgarbage()

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@ -1,29 +1,8 @@
-- Module filling a buffer, sent to the LEDs -- Module filling a buffer, sent to the LEDs
local M local M
do do
local updateColor = function (data, inverseRow)
--FIXME magic missing to start on the left side
return data.colorFg
end
local drawLEDs = function(data, numberNewChars, inverseRow) local data={}
if (inverseRow == nil) then
inverseRow=false
end
if (numberNewChars == nil) then
numberNewChars=0
end
local tmpBuf=nil
for i=1,numberNewChars do
if (tmpBuf == nil) then
tmpBuf = updateColor(data, inverseRow)
else
tmpBuf=tmpBuf .. updateColor(data, inverseRow)
end
data.drawnCharacters=data.drawnCharacters+1
end
return tmpBuf
end
-- Utility function for round -- Utility function for round
local round = function(num) local round = function(num)
@ -38,220 +17,356 @@ local round = function(num)
end end
end end
local data={} -- @fn generateLEDs
-- Module displaying of the words -- Module displaying of the words
local generateLEDs = function(words, colorForground, colorMin1, colorMin2, colorMin3, colorMin4) -- @param data struct with the following paramter:
-- Set the local variables needed for the colored progress bar -- aoC amount of characters for the complete message
data={} -- mC amout of minutes to show
-- dC drawn characters
local updateColor = function (data)
if (data.aoC > 0) and (data.mC ~= nil) then
local specialChar = data.dC
if (data.mC < 1) then
specialChar = 0
elseif (data.dC > data.mC) then
specialChar = 0
end
if (specialChar < 1) then
return data.colorFg
elseif (specialChar < 2) then
return data.colorM1
elseif (specialChar < 3) then
return data.colorM2
elseif (specialChar < 4) then
return data.colorM3
elseif (specialChar < 5) then
return data.colorM4
else
return data.colorFg
end
else
return data.colorFg
end
end
local drawLEDs = function(data, offset, numberNewChars)
if (numberNewChars == nil) then
numberNewChars=0
end
if (data.rgbBuffer == nil) then
return
end
for i=1,numberNewChars do
data.dC=data.dC+1
data.rgbBuffer:set(tonumber(offset + i - 1), updateColor(data))
end
end
-- @fn swapLine
-- @param lineOffset offset (starting at 1) where the line is located to be swapped
-- works on the rgbBuffer, defined in data struct
-- @return <code>false</code> on errors, else <code>true</code>
local swapLine = function(data, lineOffset)
if (data.rgbBuffer == nil) then
return false
end
for i = 0,4 do
local num=tonumber(lineOffset)+i
local num2=tonumber(tonumber(lineOffset)+10-i)
local tmpC1, tmpC2, tmpC3=data.rgbBuffer:get(num)
local c1, c2, c3 =data.rgbBuffer:get(num2)
data.rgbBuffer:set(num, c1, c2, c3)
data.rgbBuffer:set(num2, tmpC1, tmpC2, tmpC3)
end
return true
end
-- @fn generateLEDs
-- Module displaying of the words
-- @param rgbBuffer OutputBuffer with 114 LEDs
-- @param words
-- @param colorBg background color
-- @param colorFg foreground color
-- @param colorM1 foreground color if one minute after a displayable time is present
-- @param colorM2 foreground color if two minutes after a displayable time is present
-- @param colorM3 foreground color if three minutes after a displayable time is present
-- @param colorM4 foreground color if four minutes after a displayable time is present
-- @param invertRows wheather line 4,5 and 6 shall be inverted or not
-- @param aoC Amount of characters to be displayed
local generateLEDs = function(rgbBuffer, words, colorBg, colorFg, colorM1, colorM2, colorM3, colorM4, invertRows, aoC)
-- Set the local variables needed for the colored progress bar
if (words == nil) then if (words == nil) then
return nil return nil
end end
if (invertRows == nil) then
invertRows=false
end
local minutes=1 local minutes=0
if (words.min1 == 1) then if (words.m1 == 1) then
minutes = minutes + 1 minutes = minutes + 1
elseif (words.min2 == 1) then elseif (words.m2 == 1) then
minutes = minutes + 2 minutes = minutes + 2
elseif (words.min3 == 1) then elseif (words.m3 == 1) then
minutes = minutes + 3 minutes = minutes + 3
elseif (words.min4 == 1) then elseif (words.m4 == 1) then
minutes = minutes + 4 minutes = minutes + 4
end end
if ( (adc ~= nil) and (words.briPercent ~= nil) ) then -- always set a foreground value
if (colorFg == nil) then
colorFg = string.char(255,255,255)
end
if (aoC ~= nil) then
data.aoC = aoC
data.mC = minutes
else
data.aoC = 0
end
data.rgbBuffer = rgbBuffer
if ( (adc ~= nil) and (words.briPer ~= nil) ) then
local per = math.floor(100*adc.read(0)/1000) local per = math.floor(100*adc.read(0)/1000)
words.briPercent = tonumber( ((words.briPercent * 4) + per) / 5) words.briPer = tonumber( ((words.briPer * 4) + per) / 5)
print("Minutes : " .. tostring(minutes) .. " bright: " .. tostring(words.briPercent) .. "% current: " .. tostring(per) .. "%") print("Minutes : " .. tostring(minutes) .. " bright: " .. tostring(words.briPer) .. "% current: " .. tostring(per) .. "%")
data.colorFg = string.char(string.byte(colorForground,1) * briPercent / 100, string.byte(colorForground,2) * briPercent / 100, string.byte(colorForground,3) * briPercent / 100) data.colorFg = string.char(string.byte(colorFg,1) * briPer / 100, string.byte(colorFg,2) * briPer / 100, string.byte(colorFg,3) * briPer / 100)
data.colorMin1 = string.char(string.byte(colorMin1,1) * briPercent / 100, string.byte(colorMin1,2) * briPercent / 100, string.byte(colorMin1,3) * briPercent / 100) data.colorM1 = string.char(string.byte(colorM1,1) * briPer / 100, string.byte(colorM1,2) * briPer / 100, string.byte(colorM1,3) * briPer / 100)
data.colorMin2 = string.char(string.byte(colorMin2,1) * briPercent / 100, string.byte(colorMin2,2) * briPercent / 100, string.byte(colorMin2,3) * briPercent / 100) data.colorM2 = string.char(string.byte(colorM2,1) * briPer / 100, string.byte(colorM2,2) * briPer / 100, string.byte(colorM2,3) * briPer / 100)
data.colorMin3 = string.char(string.byte(colorMin3,1) * briPercent / 100, string.byte(colorMin3,2) * briPercent / 100, string.byte(colorMin3,3) * briPercent / 100) data.colorM3 = string.char(string.byte(colorM3,1) * briPer / 100, string.byte(colorM3,2) * briPer / 100, string.byte(colorM3,3) * briPer / 100)
data.colorMin4 = string.char(string.byte(colorMin4,1) * briPercent / 100, string.byte(colorMin4,2) * briPercent / 100, string.byte(colorMin4,3) * briPercent / 100) data.colorM4 = string.char(string.byte(colorM4,1) * briPer / 100, string.byte(colorM4,2) * briPer / 100, string.byte(colorM4,3) * briPer / 100)
else else
-- devide by five (Minute 0, Minute 1 to Minute 4 takes the last chars) -- devide by five (Minute 0, Minute 1 to Minute 4 takes the last chars)
data.colorFg=colorForground data.colorFg=colorFg
data.colorMin1=colorMin1 data.colorM1=colorM1
data.colorMin2=colorMin2 data.colorM2=colorM2
data.colorMin3=colorMin3 data.colorM3=colorM3
data.colorMin4=colorMin4 data.colorM4=colorM4
end end
data.words=words data.dC=0 -- drawn characters
data.drawnCharacters=0
data.drawnWords=0
local charsPerLine=11 local charsPerLine=11
-- Space / background has no color by default
local space=string.char(0,0,0) -- Background color must always be set
-- set FG to fix value: if (colorBg ~= nil) then
colorFg = string.char(255,255,255) rgbBuffer:fill(string.byte(colorBg,1), string.byte(colorBg,2), string.byte(colorBg,3)) -- draw the background
-- Set the foreground color as the default color
local buf=colorFg
-- line 1----------------------------------------------
if (words.it==1) then
buf=drawLEDs(data,2) -- ES
else
buf=space:rep(2)
end end
-- K fill character
buf=buf .. space:rep(1) local lineIdx=1
-- line 1----------------------------------------------
if (rowbgColor[1] ~= nil) then
for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[1]) end
end
if (words.it==1) then
drawLEDs(data, lineIdx, 2) -- ES
end
-- K fill character
if (words.is == 1) then if (words.is == 1) then
buf=buf .. drawLEDs(data,3) -- IST drawLEDs(data, lineIdx+3, 3) -- IST
else
buf=buf .. space:rep(3)
end end
-- L fill character -- L fill character
buf=buf .. space:rep(1) if (words.m5== 1) then
if (words.fiveMin== 1) then drawLEDs(data, lineIdx+7, 4) -- FUENF
buf= buf .. drawLEDs(data,4) -- FUENF
else
buf= buf .. space:rep(4)
end end
-- line 2-- even row (so inverted) -------------------- -- line 2-- even row (so inverted) --------------------
if (words.twenty == 1) then lineIdx=12
buf= buf .. drawLEDs(data,7,true) -- ZWANZIG if (rowbgColor[2] ~= nil) then
else for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[2]) end
buf= buf .. space:rep(7) end
if (words.m10 == 1) then
drawLEDs(data, lineIdx, 4) -- ZEHN
end end
if (words.tenMin == 1) then if (words.m20 == 1) then
buf= buf .. drawLEDs(data,4,true) -- ZEHN drawLEDs(data, lineIdx + 4, 7) -- ZWANZIG
else
buf= buf .. space:rep(4)
end end
-- swap line
swapLine(data,lineIdx)
-- line3---------------------------------------------- -- line3----------------------------------------------
if (words.threequater == 1) then lineIdx=23
buf= buf .. drawLEDs(data,11) -- Dreiviertel if (rowbgColor[3] ~= nil) then
elseif (words.quater == 1) then for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[3]) end
buf= buf .. space:rep(4) end
buf= buf .. drawLEDs(data,7) -- VIERTEL if (words.h3q == 1) then
else drawLEDs(data,lineIdx, 11) -- DREIVIERTEL
buf= buf .. space:rep(11) elseif (words.hq == 1) then
drawLEDs(data, lineIdx + 4, 7) -- VIERTEL
end end
--line 4-------- even row (so inverted) ------------- --line 4-------- even row (so inverted) -------------
if (words.before == 1) then lineIdx=34
buf=buf .. space:rep(2) if (rowbgColor[4] ~= nil) then
buf= buf .. drawLEDs(data,3,true) -- VOR for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[4]) end
else end
buf= buf .. space:rep(5) if (words.ha == 1) then
-- TG
drawLEDs(data, lineIdx + 2, 4) -- NACH
end end
if (words.after == 1) then if (words.hb == 1) then
buf= buf .. drawLEDs(data,4,true) -- NACH drawLEDs(data, lineIdx + 6, 3) -- VOR
buf= buf .. space:rep(2) -- TG
else
buf= buf .. space:rep(6)
end end
------------------------------------------------ if (invertRows ~= true) then
swapLine(data,lineIdx)
end
-- line 5 ----------------------------------------------
lineIdx=45
if (rowbgColor[5] ~= nil) then
for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[5]) end
end
if (words.half == 1) then if (words.half == 1) then
buf= buf .. drawLEDs(data,4) -- HALB drawLEDs(data, lineIdx, 4) -- HALB
buf= buf .. space:rep(1) -- X -- X
else
buf= buf .. space:rep(5)
end end
if (words.twelve == 1) then if (words.h12 == 1) then
buf= buf .. drawLEDs(data,5) -- ZWOELF drawLEDs(data, lineIdx + 5,5) -- ZWOELF
buf= buf .. space:rep(1) -- P -- P
else end
buf= buf .. space:rep(6) if (invertRows == true) then
swapLine(data,lineIdx)
end end
------------even row (so inverted) --------------------- ------------even row (so inverted) ---------------------
if (words.seven == 1) then lineIdx=56
buf= buf .. drawLEDs(data,6,true) -- SIEBEN if (rowbgColor[6] ~= nil) then
buf= buf .. space:rep(5) for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[6]) end
elseif (words.oneLong == 1) then end
buf= buf .. space:rep(5) if (words.h7 == 1) then
buf= buf .. drawLEDs(data,4,true) -- EINS drawLEDs(data, lineIdx + 5, 6) -- SIEBEN
buf= buf .. space:rep(2) elseif (words.h1l == 1) then
elseif (words.one == 1) then drawLEDs(data, lineIdx + 2,4) -- EINS
buf= buf .. space:rep(6) elseif (words.h1 == 1) then
buf= buf .. drawLEDs(data,3,true) -- EIN drawLEDs(data, lineIdx + 2, 3) -- EIN
buf= buf .. space:rep(2) elseif (words.h2 == 1) then
elseif (words.two == 1) then drawLEDs(data, lineIdx, 4) -- ZWEI
buf= buf .. space:rep(7) end
buf= buf .. drawLEDs(data,4,true) -- ZWEI if (invertRows ~= true) then
else swapLine(data,lineIdx)
buf= buf .. space:rep(11)
end end
------------------------------------------------ ------------------------------------------------
if (words.three == 1) then lineIdx=67
buf= buf .. space:rep(1) if (rowbgColor[7] ~= nil) then
buf= buf .. drawLEDs(data,4) -- DREI for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[7]) end
buf= buf .. space:rep(6) end
elseif (words.five == 1) then if (words.h3 == 1) then
buf= buf .. space:rep(7) drawLEDs(data, lineIdx + 1,4) -- DREI
buf= buf .. drawLEDs(data,4) -- FUENF elseif (words.h5 == 1) then
else drawLEDs(data, lineIdx + 7, 4) -- FUENF
buf= buf .. space:rep(11)
end end
------------even row (so inverted) --------------------- ------------even row (so inverted) ---------------------
if (words.four == 1) then lineIdx=78
buf= buf .. drawLEDs(data,4,true) -- VIER if (rowbgColor[8] ~= nil) then
buf= buf .. space:rep(7) for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[8]) end
elseif (words.nine == 1) then end
buf= buf .. space:rep(4) if (words.h4 == 1) then
buf= buf .. drawLEDs(data,4,true) -- NEUN drawLEDs(data, lineIdx + 7, 4) -- VIER
buf= buf .. space:rep(3) elseif (words.h9 == 1) then
elseif (words.eleven == 1) then drawLEDs(data, lineIdx + 3, 4) -- NEUN
buf= buf .. space:rep(8) elseif (words.h11 == 1) then
buf= buf .. drawLEDs(data,3,true) -- ELEVEN drawLEDs(data, lineIdx, 3) -- ELF
else
buf= buf .. space:rep(11)
end end
swapLine(data,lineIdx)
------------------------------------------------ ------------------------------------------------
if (words.eight == 1) then lineIdx=89
buf= buf .. space:rep(1) if (rowbgColor[9] ~= nil) then
buf= buf .. drawLEDs(data,4) -- ACHT for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[9]) end
buf= buf .. space:rep(6) end
elseif (words.ten == 1) then if (words.h8 == 1) then
buf= buf .. space:rep(5) drawLEDs(data, lineIdx + 1, 4) -- ACHT
buf= buf .. drawLEDs(data,4) -- ZEHN elseif (words.h10 == 1) then
buf= buf .. space:rep(2) drawLEDs(data, lineIdx + 5, 4) -- ZEHN
else
buf= buf .. space:rep(11)
end end
------------even row (so inverted) --------------------- ------------even row (so inverted) ---------------------
if (words.clock == 1) then lineIdx=100
buf= buf .. drawLEDs(data,3,true) -- UHR if (rowbgColor[10] ~= nil) then
else for i=lineIdx,lineIdx+10, 1 do data.rgbBuffer:set(i, rowbgColor[10]) end
buf= buf .. space:rep(3)
end
if (words.six == 1) then
buf= buf .. space:rep(2)
buf= buf .. drawLEDs(data,5,true) -- SECHS
buf= buf .. space:rep(1)
else
buf= buf .. space:rep(8)
end
if (words.min1 == 1) then
buf= buf .. colorFg
else
buf= buf .. space:rep(1)
end
if (words.min2 == 1) then
buf= buf .. colorFg
else
buf= buf .. space:rep(1)
end end
if (words.min3 == 1) then if (words.h6 == 1) then
buf= buf .. colorFg drawLEDs(data, lineIdx + 1, 5) -- SECHS
else end
buf= buf .. space:rep(1) if (words.cl == 1) then
drawLEDs(data, lineIdx + 8, 3) -- UHR
end
swapLine(data,lineIdx)
------ Minutes -----------
if (words.m1 == 1) then
data.rgbBuffer:set(111, colorFg)
end
if (words.m2 == 1) then
data.rgbBuffer:set(112, colorFg)
end end
if (words.min4 == 1) then if (words.m3 == 1) then
buf= buf .. colorFg data.rgbBuffer:set(113, colorFg)
else end
buf= buf .. space:rep(1) if (words.m4 == 1) then
data.rgbBuffer:set(114, colorFg)
end end
collectgarbage() collectgarbage()
return buf
end end
-- Count amount of characters to display
local countChars = function(words)
local characters = 0
for key,value in pairs(words) do
if (value > 0) then
if (key == "it") then
characters = characters + 2
elseif (key == "is") then
characters = characters + 3
elseif (key == "m5") then
characters = characters + 4
elseif (key == "m10") then
characters = characters + 4
elseif (key == "ha") then
characters = characters + 4
elseif (key == "hb") then
characters = characters + 3
elseif (key == "h3") then
characters = characters + 4
elseif (key == "hq") then
characters = characters + 7
elseif (key == "h3q") then
characters = characters + 11
elseif (key == "half") then
characters = characters + 4
elseif (key == "h1") then
characters = characters + 3
elseif (key == "h1l") then
characters = characters + 4
elseif (key == "h2") then
characters = characters + 4
elseif (key == "h3") then
characters = characters + 4
elseif (key == "h4") then
characters = characters + 4
elseif (key == "h5") then
characters = characters + 4
elseif (key == "h6") then
characters = characters + 4
elseif (key == "h7") then
characters = characters + 6
elseif (key == "h8") then
characters = characters + 4
elseif (key == "h9") then
characters = characters + 4
elseif (key == "h10") then
characters = characters + 4
elseif (key == "h11") then
characters = characters + 3
elseif (key == "h12") then
characters = characters + 5
elseif (key == "m20") then
characters = characters + 7
elseif (key == "cl") then
characters = characters + 3
end
end
end
return characters
end
M = { M = {
generateLEDs = generateLEDs, generateLEDs = generateLEDs,
round = round, round = round,
drawLEDs = drawLEDs, drawLEDs = drawLEDs,
updateColor = updateColor, updateColor = updateColor,
data = data, data = data,
countChars = countChars
} }
end end
displayword = M dw = M

138
ds18b20.lua Normal file
View File

@ -0,0 +1,138 @@
--------------------------------------------------------------------------------
-- DS18B20 one wire module for NODEMCU
-- NODEMCU TEAM
-- LICENCE: http://opensource.org/licenses/MIT
-- Vowstar <vowstar@nodemcu.com>
-- 2015/02/14 sza2 <sza2trash@gmail.com> Fix for negative values
--------------------------------------------------------------------------------
-- Set module name as parameter of require
local modname = ...
local M = {}
_G[modname] = M
--------------------------------------------------------------------------------
-- Local used variables
--------------------------------------------------------------------------------
-- DS18B20 dq pin
local pin = nil
-- DS18B20 default pin
local defaultPin = 9
--------------------------------------------------------------------------------
-- Local used modules
--------------------------------------------------------------------------------
-- Table module
local table = table
-- String module
local string = string
-- One wire module
local ow = ow
-- Timer module
local tmr = tmr
-- Limited to local environment
setfenv(1,M)
--------------------------------------------------------------------------------
-- Implementation
--------------------------------------------------------------------------------
C = 0
F = 1
K = 2
function setup(dq)
pin = dq
if(pin == nil) then
pin = defaultPin
end
ow.setup(pin)
end
function addrs()
setup(pin)
tbl = {}
ow.reset_search(pin)
repeat
addr = ow.search(pin)
if(addr ~= nil) then
table.insert(tbl, addr)
end
tmr.wdclr()
until (addr == nil)
ow.reset_search(pin)
return tbl
end
function readNumber(addr, unit)
result = nil
setup(pin)
flag = false
if(addr == nil) then
ow.reset_search(pin)
count = 0
repeat
count = count + 1
addr = ow.search(pin)
tmr.wdclr()
until((addr ~= nil) or (count > 100))
ow.reset_search(pin)
end
if(addr == nil) then
return result
end
crc = ow.crc8(string.sub(addr,1,7))
if (crc == addr:byte(8)) then
if ((addr:byte(1) == 0x10) or (addr:byte(1) == 0x28)) then
-- print("Device is a DS18S20 family device.")
ow.reset(pin)
ow.select(pin, addr)
ow.write(pin, 0x44, 1)
-- tmr.delay(1000000)
present = ow.reset(pin)
ow.select(pin, addr)
ow.write(pin,0xBE,1)
-- print("P="..present)
data = nil
data = string.char(ow.read(pin))
for i = 1, 8 do
data = data .. string.char(ow.read(pin))
end
-- print(data:byte(1,9))
crc = ow.crc8(string.sub(data,1,8))
-- print("CRC="..crc)
if (crc == data:byte(9)) then
t = (data:byte(1) + data:byte(2) * 256)
if (t > 32767) then
t = t - 65536
end
if(unit == nil or unit == C) then
t = t * 625
elseif(unit == F) then
t = t * 1125 + 320000
elseif(unit == K) then
t = t * 625 + 2731500
else
return nil
end
t = t / 100
-- print("Temperature="..t1.."."..t2.." Centigrade")
-- result = t1.."."..t2
return t
end
tmr.wdclr()
else
-- print("Device family is not recognized.")
end
else
-- print("CRC is not valid!")
end
return result
end
function read(addr, unit)
t = readNumber(addr, unit)
if (t == nil) then
return nil
else
return t
end
end
-- Return module table
return M

View File

@ -1,22 +0,0 @@
<html>
<head><title>WordClock Setup Page</title>
</head><body>
<h1>Welcome to the WordClock</h1>
<form action="" method="POST">
<table>
<tr><th>WIFI-SSID</b></th><td><input name="ssid" value="${SSID}"></td><td /></tr>
<tr><th>WIFI-Password</th><td><input name="password"></td><td /></tr>
<tr><th>SNTP Server</th><td><input name="sntpserver" value="${sntpserverhostname}" ></td><td>ntp server to sync the time</tr>
<tr><th>Offset to UTC time</th><td><input type="number" name="timezoneoffset" value="${TIMEZONEOFFSET}"></td><td>Define the offset to UTC time in hours. E.g +1</tr>
<tr><th>Color</th><td><input type="color" name="fcolor" value="${HEXCOLOR}"></td><td /></tr>
<tr><th>1. Minute Color</th><td><input type=\"color\" name=\"colorMin1\" value=\"" .. hexColor1 .. "\"></td><td /></tr>"
<tr><th>2. Minute Color</th><td><input type=\"color\" name=\"colorMin2\" value=\"" .. hexColor2 .. "\"></td><td /></tr>"
<tr><th>3. Minute Color</th><td><input type=\"color\" name=\"colorMin3\" value=\"" .. hexColor3 .. "\"></td><td /></tr>"
<tr><th>4. Minute Color</th><td><input type=\"color\" name=\"colorMin4\" value=\"" .. hexColor4 .. "\"></td><td /></tr>"
<tr><th>Three quater</th><td><input type="checkbox" name="threequater" ${THREEQUARTERCHECKED}></td><td>Dreiviertel Joa/nei</td></tr>
<tr><th>ColorMode</th><td><input type="checkbox" name="colorMode" ${COLORMODECHECKED}></td><td>If checked, words are dark, rest is colored</td></tr>
<tr><td colspan="3"><div align="center"><input type="submit" value="Save Configuration" onclick="this.value='Submitting ..';this.disabled='disabled'; this.form.submit();"></div></td></tr>
<tr><td colspan="3"><div align="center"><input type="submit" name="action" value="Reboot"></div></td></tr>
</table></form>
$ADDITIONAL_LINE
</body></html>

View File

@ -2,67 +2,64 @@ uart.setup(0, 115200, 8, 0, 1, 1 )
print("Autostart in 5 seconds...") print("Autostart in 5 seconds...")
ws2812.init() -- WS2812 LEDs initialized on GPIO2 ws2812.init() -- WS2812 LEDs initialized on GPIO2
MAXLEDS=110 local MAXLEDS=110
counter1=0 local counter1=0
ws2812.write(string.char(0,0,0):rep(114)) ws2812.write(string.char(0,0,0):rep(114))
tmr.alarm(2, 85, 1, function() local bootledtimer = tmr.create()
bootledtimer:register(75, tmr.ALARM_AUTO, function (t)
counter1=counter1+1 counter1=counter1+1
spaceLeds = math.max(MAXLEDS - (counter1*2), 0) spaceLeds = math.max(MAXLEDS - (counter1*2), 0)
ws2812.write(string.char(128,0,0):rep(counter1) .. string.char(0,0,0):rep(spaceLeds) .. string.char(0,0,64):rep(counter1)) ws2812.write(string.char(16,0,0):rep(counter1) .. string.char(0,0,0):rep(spaceLeds) .. string.char(0,0,8):rep(counter1))
end) if ((counter1*2) > 114) then
t:unregister()
local blacklistfile="init.lua config.lua config.lua.new webpage.html"
function recompileAll()
for i=0,5 do tmr.stop(i) end
-- compile all files
l = file.list();
for k,_ in pairs(l) do
if (string.find(k, ".lc", -3)) then
print ("Skipping " .. k)
elseif (string.find(blacklistfile, k) == nil) then
-- Only look at lua files
if (string.find(k, ".lua") ~= nil) then
print("Compiling and deleting " .. k)
node.compile(k)
-- remove the lua file
file.remove(k)
else
print("No code: " .. k)
end
end
end end
end end)
bootledtimer:start()
function mydofile(mod) function mydofile(mod)
if (file.open(mod .. ".lua")) then if (file.open(mod .. ".lua")) then
dofile( mod .. ".lua") dofile( mod .. ".lua")
elseif (file.open(mod .. "_diet.lua")) then
dofile(mod .. "_diet.lua")
elseif (file.open(mod .. "_diet.lc")) then
dofile(mod .. "_diet.lc")
elseif (file.open(mod)) then
dofile(mod)
else else
dofile(mod .. ".lc") print("NA: " .. mod)
end end
end end
initTimer = tmr.create()
tmr.alarm(1, 5000, 0, function() initTimer:register(5000, tmr.ALARM_SINGLE, function (t)
tmr.stop(2) bootledtimer:unregister()
if ( initTimer:unregister()
(file.open("main.lua")) or initTimer=nil
(file.open("timecore.lua")) or bootledtimer=nil
(file.open("wordclock.lua")) or local modlist = { "timecore" , "displayword", "ds18b20", "mqtt", "main" }
(file.open("displayword.lua")) or for i,mod in pairs(modlist) do
(file.open("webserver.lua")) if (file.open(mod .. "_diet.lua")) then
) then file.remove(mod .. "_diet.lc")
c = string.char(0,128,0) print(tostring(i) .. ". Compile " .. mod)
w = string.char(0,0,0) ws2812.write(string.char(0,0,0):rep(11*i)..string.char(128,0,0):rep(11))
ws2812.write(w:rep(4) .. c .. w:rep(15) .. c .. w:rep(9) .. c .. w:rep(30) .. c .. w:rep(41) .. c ) node.compile(mod .. "_diet.lua")
recompileAll() print("cleanup..")
print("Rebooting ...") file.remove(mod .. "_diet.lua")
-- reboot repairs everything node.restart()
node.restart() return
elseif (file.open("main.lc")) then end
end
if ( file.open("config.lua") ) then
--- Normal operation
print("Starting main") print("Starting main")
dofile("main.lc") mydofile("main")
wifi.setmode(wifi.STATION)
dofile("config.lua")
normalOperation()
else else
print("No Main file found") -- Logic for inital setup
mydofile("webserver")
end end
end) end)
print("Init file end reached") initTimer:start()

309
main.lua
View File

@ -1,93 +1,75 @@
-- Main Module -- Main Module
mlt = tmr.create() -- Main loop timer
function startSetupMode() rowbgColor= {}
tmr.stop(0) -- Buffer of the clock
tmr.stop(1) rgbBuffer = ws2812.newBuffer(114, 3)
-- start the webserver module -- 110 Character plus one LED for each minute,
mydofile("webserver") -- that cannot be displayed, as the clock as only a resolution of 5 minutes
wifi.setmode(wifi.SOFTAP)
cfg={}
cfg.ssid="wordclock"
cfg.pwd="wordclock"
wifi.ap.config(cfg)
-- Write the buffer to the LEDs
local color=string.char(0,128,0)
local white=string.char(0,0,0)
local ledBuf= white:rep(6) .. color .. white:rep(7) .. color:rep(3) .. white:rep(44) .. color:rep(3) .. white:rep(50)
ws2812.write(ledBuf)
color=nil
white=nil
ledBuf=nil
print("Waiting in access point >wordclock< for Clients")
print("Please visit 192.168.4.1")
startWebServer()
collectgarbage()
end
function syncTimeFromInternet() function syncTimeFromInternet()
--ptbtime1.ptb.de if (syncRunning == nil) then
syncRunning=true
sntp.sync(sntpserverhostname, sntp.sync(sntpserverhostname,
function(sec,usec,server) function(sec,usec,server)
print('sync', sec, usec, server) syncRunning=nil
displayTime()
end, end,
function() function()
print('failed!') print('NTP failed!')
syncRunning=nil
end end
) )
end
end end
briPercent = 50
function displayTime() function displayTime()
collectgarbage()
local sec, usec = rtctime.get() local sec, usec = rtctime.get()
-- Handle lazy programmer: -- Handle lazy programmer:
if (timezoneoffset == nil) then if (timezoneoffset == nil) then
timezoneoffset=0 timezoneoffset=0
end end
local time = getTime(sec, timezoneoffset) mydofile("timecore")
local words = display_timestat(time.hour, time.minute) if (tc == nil) then
if ((dim ~= nil) and (dim == "on")) then return
words.briPercent=briPercent
else
words.briPercent=nil
end end
dp = dofile("displayword.lc") local time = tc.getTime(sec, timezoneoffset)
if (dp ~= nil) then tc = nil
ledBuf = dp.generateLEDs(words, color, color1, color2, color3, color4) collectgarbage()
print("Local time : " .. time.year .. "-" .. time.month .. "-" .. time.day .. " " .. time.hour .. ":" .. time.minute .. ":" .. time.second .. " char: " .. tostring(displayword.data.drawnCharacters)) mydofile("wordclock")
if (wc ~= nil) then
words = wc.timestat(time.hour, time.minute)
if ((dim ~= nil) and (dim == "on")) then
words.briPer=briPer
if (words.briPer ~= nil and words.briPer < 3) then
words.briPer=3
end
else
words.briPer=nil
end
end end
dp = nil wc = nil
if (ledBuf ~= nil) then collectgarbage()
--if lines 4 to 6 are inverted due to hardware-fuckup, unfuck it here print("wc: " .. tostring(node.heap()))
if ((inv46 ~= nil) and (inv46 == "on")) then mydofile("displayword")
tempstring = ledBuf:sub(1,99) -- first 33 leds if (dw ~= nil) then
rowend = {44,55,66} --if lines 4 to 6 are inverted due to hardware-fuckup, unfuck it here
for _, startled in ipairs(rowend) do local invertRows=false
for i = 0,10 do if ((inv46 ~= nil) and (inv46 == "on")) then
tempstring = tempstring .. ledBuf:sub((startled-i)*3-2,(startled-i)*3) invertRows=true
end end
end local c = dw.countChars(words)
tempstring = tempstring .. ledBuf:sub((67*3)-2,ledBuf:len()) dw.generateLEDs(rgbBuffer, words, colorBg, color, color1, color2, color3, color4, invertRows, c)
ws2812.write(tempstring)
tempstring=nil
else
ws2812.write(ledBuf)
ledBuf=nil
end
end
-- Used for debugging
if (clockdebug ~= nil) then
for key,value in pairs(words) do
if (value > 0) then
print(key,value)
end
end
end end
if ( (tw ~= nil) and (tcol ~= nil) ) then
local c1 = dw.countChars(tw)
dw.generateLEDs(rgbBuffer, tw, nil, tcol, nil, nil, nil, nil, invertRows, c1)
end
dw = nil
collectgarbage()
-- cleanup -- cleanup
briPercent=words.briPercent i=nil
briPer=words.briPer
words=nil words=nil
time=nil time=nil
collectgarbage() collectgarbage()
@ -99,106 +81,157 @@ function normalOperation()
-- Color is defined as GREEN, RED, BLUE -- Color is defined as GREEN, RED, BLUE
color=string.char(0,0,250) color=string.char(0,0,250)
end end
print("start: " , node.heap())
connect_counter=0 -------------------------------------------------------------
-- Define the main loop
local setupCounter=5
local alive=0
mlt:register(1000, tmr.ALARM_AUTO, function (lt)
if (setupCounter > 4) then
if (colorBg ~= nil) then
rgbBuffer:fill(string.byte(colorBg,1), string.byte(colorBg,2), string.byte(colorBg,3)) -- disable all LEDs
else
rgbBuffer:fill(0,0,0) -- disable all LEDs
end
syncTimeFromInternet()
setupCounter=setupCounter-1
alive = 1
rgbBuffer:set(19, color) -- N
rgbBuffer:set(31, color) -- T
if ((inv46 ~= nil) and (inv46 == "on")) then
rgbBuffer:set(45, color) -- P
else
rgbBuffer:set(55, color) -- P
end
elseif (setupCounter > 3) then
-- Here the WLAN is found, and something is done
mydofile("mqtt")
rgbBuffer:fill(0,0,0) -- disable all LEDs
if (startMqttClient ~= nil) then
if ((inv46 ~= nil) and (inv46 == "on")) then
rgbBuffer:set(34, color) -- M
else
rgbBuffer:set(44, color) -- M
end
rgbBuffer:set(82, color) -- T
startMqttClient()
else
print("NO Mqtt found")
mydofile("telnet")
end
setupCounter=setupCounter-1
elseif (setupCounter > 2) then
if (startTelnetServer ~= nil) then
startTelnetServer()
else
displayTime()
end
setupCounter=setupCounter-1
elseif ( (alive % 120) == 0) then
-- sync the time every 5 minutes
local heapusage = node.heap()
if (heapusage > 12000) then
syncTimeFromInternet()
end
heapusage=nil
alive = alive + 1
else
displayTime()
alive = alive + 1
end
if (rgbBuffer ~= nil) then
-- show Mqtt status
if (startMqttClient ~= nil) then
if (not connectedMqtt()) then
rgbBuffer:set(103, 0, 64,0)
-- check every thirty seconds, if reconnecting is necessary
if (((tmr.now() / 1000000) % 100) == 30) then
print("MQTT reconnecting... ")
reConnectMqtt()
end
end
end
ws2812.write(rgbBuffer)
else
-- set FG to fix value: RED
local color = string.char(255,0,0)
rgbBuffer:fill(0,0,0) -- disable all LEDs
for i=108,110, 1 do rgbBuffer:set(i, color) end
ws2812.write(rgbBuffer)
print("Fallback no time displayed")
end
collectgarbage()
-- Feed the system watchdog.
tmr.wdclr()
end)
-------------------------------------------------------------
-- Connect to Wifi
local connect_counter=0
-- Wait to be connect to the WiFi access point. -- Wait to be connect to the WiFi access point.
tmr.alarm(0, 500, 1, function() local wifitimer = tmr.create()
wifitimer:register(500, tmr.ALARM_AUTO, function (timer)
connect_counter=connect_counter+1 connect_counter=connect_counter+1
if wifi.sta.status() ~= 5 then if wifi.sta.status() ~= 5 then
print(connect_counter .. "/60 Connecting to AP...") print(connect_counter .. "/60 Connecting to AP...")
rgbBuffer:fill(0,0,0) -- clear all LEDs
if (connect_counter % 5 ~= 4) then if (connect_counter % 5 ~= 4) then
local wlanColor=string.char((connect_counter % 6)*20,(connect_counter % 5)*20,(connect_counter % 3)*20) local wlanColor=string.char((connect_counter % 6)*20,(connect_counter % 5)*20,(connect_counter % 3)*20)
local space=string.char(0,0,0)
local buf=space:rep(6)
if ((connect_counter % 5) >= 1) then if ((connect_counter % 5) >= 1) then
buf = buf .. wlanColor rgbBuffer:set(7, wlanColor)
else
buf = buf .. space
end end
buf = buf .. space:rep(4)
buf= buf .. space:rep(3)
if ((connect_counter % 5) >= 3) then if ((connect_counter % 5) >= 3) then
buf = buf .. wlanColor rgbBuffer:set(15, wlanColor)
else
buf = buf .. space
end end
if ((connect_counter % 5) >= 2) then if ((connect_counter % 5) >= 2) then
buf = buf .. wlanColor rgbBuffer:set(16, wlanColor)
else
buf = buf .. space
end end
if ((connect_counter % 5) >= 0) then if ((connect_counter % 5) >= 0) then
buf = buf .. wlanColor rgbBuffer:set(17, wlanColor)
else
buf = buf .. space
end end
buf = buf .. space:rep(100)
ws2812.write(buf)
else
ws2812.write(string.char(0,0,0):rep(114))
end end
ws2812.write(rgbBuffer)
else else
tmr.stop(0) wifitimer:unregister()
print('IP: ',wifi.sta.getip()) wifitimer=nil
-- Here the WLAN is found, and something is done connect_counter=nil
print("Solving dependencies") print('IP: ',wifi.sta.getip(), " heap: ", node.heap())
local dependModules = { "timecore" , "wordclock" } rgbBuffer:fill(0,0,0) -- clear all LEDs
for _,mod in pairs(dependModules) do rgbBuffer:set(13, color) -- I
print("Loading " .. mod) if ((inv46 ~= nil) and (inv46 == "on")) then
mydofile(mod) rgbBuffer:set(45, color) -- P
end else
rgbBuffer:set(55, color) -- P
tmr.alarm(2, 500, 0 ,function() end
syncTimeFromInternet() ws2812.write(rgbBuffer)
end) mlt:start()
tmr.alarm(3, 2000, 0 ,function()
print("Start webserver...")
mydofile("webserver")
startWebServer()
end)
displayTime()
-- Start the time Thread
tmr.alarm(1, 10000, 1 ,function()
displayTime()
collectgarbage()
end)
end
-- when no wifi available, open an accesspoint and ask the user
if (connect_counter >= 60) then -- 300 is 30 sec in 100ms cycle
startSetupMode()
end end
end) end)
wifitimer:start()
end end
-------------------main program ----------------------------- -------------------main program -----------------------------
briPer = 50 -- Default brightness is set to 50%
ws2812.init() -- WS2812 LEDs initialized on GPIO2 ws2812.init() -- WS2812 LEDs initialized on GPIO2
if ( file.open("config.lua") ) then
--- Normal operation
wifi.setmode(wifi.STATION)
dofile("config.lua")
normalOperation()
else
-- Logic for inital setup
startSetupMode()
end
----------- button --------- ----------- button ---------
gpio.mode(3, gpio.INPUT) gpio.mode(3, gpio.INPUT)
btnCounter=0 local btnCounter=0
-- Start the time Thread -- Start the time Thread handling the button
tmr.alarm(4, 500, 1 ,function() local btntimer = tmr.create()
btntimer:register(5000, tmr.ALARM_AUTO, function (t)
if (gpio.read(3) == 0) then if (gpio.read(3) == 0) then
tmr.stop(1) -- stop the LED thread mlt:unregister()
print("Button pressed " .. tostring(btnCounter)) print("Button pressed " .. tostring(btnCounter))
btnCounter = btnCounter + 5 btnCounter = btnCounter + 5
local ledBuf= string.char(128,0,0):rep(btnCounter) .. string.char(0,0,0):rep(110 - btnCounter) for i=1,btnCounter do rgbBuffer:set(i, 128, 0, 0) end
ws2812.write(ledBuf) ws2812.write(rgbBuffer)
if (btnCounter >= 110) then if (btnCounter >= 110) then
file.remove("config.lua") file.remove("config.lua")
file.remove("config.lc")
node.restart() node.restart()
end end
end end
end) end)
btntimer:start()

267
mqtt.lua Normal file
View File

@ -0,0 +1,267 @@
-- Global Variables
-- Display Temp
tw=nil
tcol=nil
-- Module Variables
-- Mqtt variable
local mMqttClient=nil
local mMqttConnected = false
function handleSingleCommand(client, topic, data)
if (data == "ON") then
briPer=100
mMqttClient:publish(mqttPrefix .. "/clock", "ON", 0, 0)
elseif (data == "OFF") then
briPer=0
mMqttClient:publish(mqttPrefix .. "/clock", "OFF", 0, 0)
elseif ((data:sub(1,1) == "#" and data:len() == 7) or (string.match(data, "%d+,%d+,%d+"))) then
local red=0
local green=0
local blue=0
if (data:sub(1,1) == "#") then
red = tonumber(data:sub(2,3), 16)
green = tonumber(data:sub(4,5), 16)
blue = tonumber(data:sub(6,7), 16)
else
red, green, blue = string.match(data, "(%d+),(%d+),(%d+)")
end
colorBg=string.char(green * briPer / 100, red * briPer / 100, blue * briPer / 100)
print("Updated BG: " .. tostring(red) .. "," .. tostring(green) .. "," .. tostring(blue) )
mMqttClient:publish(mqttPrefix .. "/background", tostring(red) .. "," .. tostring(green) .. "," .. tostring(blue), 0, 0)
else
if (tonumber(data) >= 0 and tonumber(data) <= 100) then
briPer=tonumber(data)
mMqttClient:publish(mqttPrefix .. "/clock", tostring(data), 0, 0)
else
print "Unknown MQTT command"
end
end
end
-- Parse MQTT data and extract color
-- @param data MQTT information
-- @param row string of the row e.g. "row1" used to publish current state
-- @param per percent the color should be dimmed
function parseBgColor(data, row, per)
local red=nil
local green=nil
local blue=nil
if (data:sub(1,1) == "#") then
red = tonumber(data:sub(2,3), 16)
green = tonumber(data:sub(4,5), 16)
blue = tonumber(data:sub(6,7), 16)
else
red, green, blue = string.match(data, "(%d+),(%d+),(%d+)")
end
if ((red ~= nil) and (green ~= nil) and (blue ~= nil) ) then
mMqttClient:publish(mqttPrefix .. "/"..row, tostring(red) .. "," .. tostring(green) .. "," .. tostring(blue), 0, 0)
if (per ~= nil) then
return string.char(green * per / 100, red * per / 100, blue * per / 100)
else
return string.char(green , red , blue )
end
else
return nil
end
end
function readTemp(ds18b20)
if (ds18b20 ~= nil) then
local addrs=ds18b20.addrs()
-- Total DS18B20 numbers
local sensors=table.getn(addrs)
local temp1=0
if (sensors >= 1) then
temp1=ds18b20.read(addrs[0])
else
print("No sensor DS18B20 found")
end
return temp1
else
print("No DS18B20 lib")
return nil
end
end
-- Connect or reconnect to mqtt server
function reConnectMqtt()
if (not mMqttConnected) then
mMqttClient:connect(mqttServer, 1883, false, function(c)
print("MQTT is connected")
mMqttConnected = true
-- subscribe topic with qos = 0
mMqttClient:subscribe(mqttPrefix .. "/cmd/#", 0)
local tmr1 = tmr.create()
tmr1:register(1000, tmr.ALARM_SINGLE, function (dummyTemp)
-- publish a message with data = hello, QoS = 0, retain = 0
mMqttClient:publish(mqttPrefix .. "/ip", tostring(wifi.sta.getip()), 0, 0)
local red = string.byte(colorBg,2)
local green = string.byte(colorBg,1)
local blue = string.byte(colorBg,3)
mMqttClient:publish(mqttPrefix .. "/background", tostring(red) .. "," .. tostring(green) .. "," .. tostring(blue), 0, 0)
tmr1:unregister()
tmr1=nil
end)
tmr1:start()
end,
function(client, reason)
print("failed reason: " .. reason)
mMqttConnected = false
end)
end
end
-- MQTT extension
function registerMqtt()
mMqttClient = mqtt.Client("wordclock", 120)
-- on publish message receive event
mMqttClient:on("message", function(client, topic, data)
collectgarbage()
if data ~= nil then
local heapusage = node.heap()
if (heapusage < 11000) then
print("Skip " .. topic .. ":" .. data .. "; heap:" .. heapusage)
heapusage=nil
return
end
heapusage=nil
print("MQTT " .. topic .. ":" .. data)
if (topic == (mqttPrefix .. "/cmd/single")) then
handleSingleCommand(client, topic, data)
elseif (topic == (mqttPrefix .. "/cmd/temp")) then
if (( data == "" ) or (data == nil)) then
tw=nil
tcol=nil
print("MQTT | wordclock failed")
else
-- generate the temperatur to display, once as it will not change
local dispTemp = tonumber(data)
collectgarbage()
mydofile("wordclock")
if (wc ~= nil) then
tw, tcol = wc.temp(dw, rgbBuffer, invertRows)
wc = nil
print("MQTT | generated words for: " + tostring(dispTemp))
else
print("MQTT | wordclock failed")
end
end
else
-- Handle here the /cmd/# sublevel
if (string.match(topic, "telnet$")) then
client:publish(mqttPrefix .. "/telnet", tostring(wifi.sta.getip()), 0, 0)
ws2812.write(string.char(0,0,0):rep(114))
print("Stop Mqtt and Temp")
m=nil
t=nil
mMqttConnected = false
if (mlt ~= nil) then
mlt:unregister()
else
print("main loop unstoppable")
end
collectgarbage()
mydofile("telnet")
if (startTelnetServer ~= nil) then
startTelnetServer()
else
print("Cannost start Telnet Server!")
end
elseif (string.match(topic, "color$")) then
color = parseBgColor(data, "color")
print("Updated color" )
elseif (string.match(topic, "color1$")) then
color1 = parseBgColor(data, "color1")
print("Updated color1" )
elseif (string.match(topic, "color2$")) then
color2 = parseBgColor(data, "color2")
print("Updated color2" )
elseif (string.match(topic, "color3$")) then
color3 = parseBgColor(data, "color3")
print("Updated color3" )
elseif (string.match(topic, "color4$")) then
color4 = parseBgColor(data, "color4")
print("Updated color4" )
else
for i=1,10,1 do
if (string.match(topic, "row".. tostring(i) .."$")) then
rowbgColor[i] = parseBgColor(data, "row" .. tostring(i), briPer)
return
end
end
end
end
end
end)
-- do something
mMqttClient:on("offline", function(client)
print("MQTT Disconnected")
mMqttConnected = false
collectgarbage()
end)
reConnectMqtt()
end
function connectedMqtt()
return mMqttConnected
end
function startMqttClient()
if (mqttServer ~= nil and mqttPrefix ~= nil) then
registerMqtt()
print "Started MQTT client"
local lSetupTimer = tmr.create()
lSetupTimer:register(123, tmr.ALARM_SINGLE, function (kTemp)
if (file.open("ds18b20_diet.lc")) then
t=true
print "Setup temperatur"
end
end)
lSetupTimer:start()
local loldBrightness=0
local lMqttTimer = tmr.create()
local tempCounter=0
-- Check every 12 seconds
lMqttTimer:register(6321, tmr.ALARM_AUTO, function (kTemp)
if (mMqttConnected) then
-- Cleanup the initialization stuff
lSetupTimer=nil
-- Do the action
local heapusage = node.heap()
local temperatur = nil
if (loldBrightness ~= briPer) then
mMqttClient:publish(mqttPrefix .. "/brightness", tostring(briPer), 0, 0)
loldBrightness = briPer
else
if ((t ~= nil) and (heapusage > 11900) and (tempCounter > 10)) then
local ds18b20=require("ds18b20_diet")
ds18b20.setup(2) -- GPIO4
readTemp(ds18b20) -- read once, to setup chip
temperatur=readTemp(ds18b20)
if (temperatur == 8500) then
temperatur=nil
end
ds18b20=nil
ds18b20_diet=nil
package.loaded["ds18b20_diet"]=nil
tempCounter = 0
else
tempCounter = tempCounter + 1
end
collectgarbage()
if (temperatur ~= nil) then
mMqttClient:publish(mqttPrefix .. "/temp", tostring(temperatur/100)..".".. tostring(temperatur%100), 0, 0)
else
mMqttClient:publish(mqttPrefix .. "/heap", tostring(heapusage), 0, 0)
collectgarbage()
end
end
heapusage=nil
temperatur=nil
end
end)
lMqttTimer:start()
end
end

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@ -1,22 +1,26 @@
# Firmware was compiled with the following modules: # Nodemcu-firmware
* LUA_USE_MODULES_ADC ## Release
* LUA_USE_MODULES_BIT * 3.0-release_20201107
* LUA_USE_MODULES_DHT
* LUA_USE_MODULES_FILE ## Modules
* LUA_USE_MODULES_GPIO Firmware was compiled with the following modules:
* LUA_USE_MODULES_I2C * LUA_USE_MODULES_ADC
* LUA_USE_MODULES_MQTT * LUA_USE_MODULES_FILE
* LUA_USE_MODULES_NET * LUA_USE_MODULES_GPIO
* LUA_USE_MODULES_NODE * LUA_USE_MODULES_MQTT
* LUA_USE_MODULES_OW * LUA_USE_MODULES_NET
* LUA_USE_MODULES_RTCFIFO * LUA_USE_MODULES_NODE
* LUA_USE_MODULES_RTCMEM * LUA_USE_MODULES_OW
* LUA_USE_MODULES_RTCTIME * LUA_USE_MODULES_PIPE
* LUA_USE_MODULES_SNTP * LUA_USE_MODULES_RTCTIME
* LUA_USE_MODULES_SPI * LUA_USE_MODULES_SNTP
* LUA_USE_MODULES_TMR * LUA_USE_MODULES_TMR
* LUA_USE_MODULES_UART * LUA_USE_MODULES_UART
* LUA_USE_MODULES_WIFI * LUA_USE_MODULES_WIFI
* LUA_USE_MODULES_WS2812 * LUA_USE_MODULES_WS2812
## Numbers
Floating point calcuation was disabled:
* LUA_NUMBER_INTEGRAL

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@ -1,22 +1,15 @@
#!/bin/bash #!/bin/bash
if [ $# -ne 1 ]; then if [ $# -ne 1 ]; then
echo "One parameter required: the device of the serial interface" DEVICE=$1
echo "$0 <device>" # check the serial connection
echo "e.g.:" if [ ! -c $DEVICE ]; then
echo "$0 ttyUSB0" echo "$DEVICE does not exist"
exit 1 exit 1
fi fi
DEVICE=$1 else
#BAUD="--baud 57600" print "Autodetect serial port"
#BAUD="--baud 921600"
# check the serial connection
if [ ! -c /dev/$DEVICE ]; then
echo "/dev/$DEVICE does not exist"
exit 1
fi fi
if [ ! -f esptool.py ]; then if [ ! -f esptool.py ]; then
@ -25,12 +18,16 @@ if [ ! -f esptool.py ]; then
exit 1 exit 1
fi fi
./esptool.py --port /dev/$DEVICE $BAUD read_mac CMD="python3 esptool.py "
if [ $# -eq 1 ]; then
CMD="python3 esptool.py --port $DEVICE "
fi
$CMD read_mac
if [ $? -ne 0 ]; then if [ $? -ne 0 ]; then
echo "Error reading the MAC -> set the device into the bootloader!" echo "Error reading the MAC -> set the device into the bootloader!"
exit 1 exit 1
fi fi
echo "Flashing the new" echo "Flashing the new firmware"
#./esptool.py --port /dev/$DEVICE $BAUD write_flash -fm dio 0x00000 nodemcu2.bin $CMD write_flash -fm dio 0x00000 0x00000.bin 0x10000 0x10000.bin 0x3fc000 esp_init_data_default.bin
./esptool.py --port /dev/$DEVICE $BAUD write_flash -fm dio 0x00000 0x00000.bin 0x10000 0x10000.bin 0x3fc000 esp_init_data_default.bin 0x07e000 blank.bin 0x3fe000 blank.bin

Binary file not shown.

View File

@ -1,8 +1,13 @@
<?xml version="1.0" encoding="UTF-8"?> <?xml version="1.0" encoding="UTF-8"?>
<classpath> <classpath>
<classpathentry kind="src" path="src"/> <classpathentry kind="src" path="src"/>
<classpathentry kind="con" path="org.eclipse.jdt.launching.JRE_CONTAINER"/> <classpathentry kind="con" path="org.eclipse.jdt.launching.JRE_CONTAINER">
<attributes>
<attribute name="module" value="true"/>
</attributes>
</classpathentry>
<classpathentry kind="lib" path="libs/luaj-jme-3.0.1.jar" sourcepath="libs/luaj-3.0.1/src"/> <classpathentry kind="lib" path="libs/luaj-jme-3.0.1.jar" sourcepath="libs/luaj-3.0.1/src"/>
<classpathentry kind="lib" path="libs/luaj-jse-3.0.1.jar"/> <classpathentry kind="lib" path="libs/luaj-jse-3.0.1.jar"/>
<classpathentry kind="lib" path="libs/org.eclipse.paho.client.mqttv3-1.2.5.jar"/>
<classpathentry kind="output" path="bin"/> <classpathentry kind="output" path="bin"/>
</classpath> </classpath>

View File

@ -6,7 +6,7 @@ The simualation should be started with the following arguments at this position:
# Use it without Eclipse # Use it without Eclipse
Compiling: Compiling:
`javac -d bin/ -cp libs/luaj-jme-3.0.1.jar:libs/luaj-jse-3.0.1.jar $(find src -name '*.java')` `javac -d bin/ -cp libs/luaj-jme-3.0.1.jar:libs/luaj-jse-3.0.1.jar:libs/org.eclipse.paho.client.mqttv3-1.2.5.jar $(find src -name '*.java')`
Running: Running:
`java -cp libs/luaj-jme-3.0.1.jar:libs/luaj-jse-3.0.1.jar:bin de.c3ma.ollo.WS2812Simulation ../init.lua ws28128ClockLayout.txt config.lua` `java -cp libs/luaj-jme-3.0.1.jar:libs/luaj-jse-3.0.1.jar:libs/org.eclipse.paho.client.mqttv3-1.2.5.jar:bin de.c3ma.ollo.WS2812Simulation ../init.lua ws28128ClockLayout.txt config.lua`

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@ -1,15 +1,22 @@
green=0 green2=200
green2=128 red=200
red=128 blue=200
blue=0
color=string.char(0, 0, 128) color=string.char(0, 0, blue)
color1=string.char(128, 0, 0) color1=string.char(red, 0, 0)
color2=string.char(tonumber(green2*0.8), 0, 0) color2=string.char(tonumber(red*0.9), 0, 0)
color3=string.char(tonumber(green2*0.4), 0, 0) color3=string.char(tonumber(red*0.8), 0, 0)
color4=string.char(tonumber(green2*0.2), 0, 0) color4=string.char(tonumber(red*0.7), 0, 0)
colorBg=string.char(0,0,0) -- black is the default background color colorBg=string.char(0,0,0) -- black is the default background color
sntpserverhostname="ptbtime1.ptb.de" sntpserverhostname="ptbtime1.ptb.de"
timezoneoffset=1 timezoneoffset=1
dim="on" dim="on"
mqttServer="192.168.1.1"
mqttPrefix="test"
if (file.open("simulation.config.lua")) then
dofile("simulation.config.lua")
else
print("Default configuration, used")
end

View File

@ -1,7 +1,13 @@
# Dependencies # Dependencies
## Lua
The following file is expected here: The following file is expected here:
`luaj-3.0.1.zip` `luaj-3.0.1.zip`
It can be downloaded here: It can be downloaded here:
https://sourceforge.net/projects/luaj/files/latest/download https://sourceforge.net/projects/luaj/files/latest/download
## MQTT
It can be downloaded here:
https://search.maven.org/classic/#search%7Cgav%7C1%7Cg%3A%22org.eclipse.paho%22%20AND%20a%3A%22org.eclipse.paho.client.mqttv3%22

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@ -18,7 +18,7 @@ public class LuaThreadTmr extends Thread {
private LuaValue code; private LuaValue code;
private final int delay; private int delay;
private final int timerNumber; private final int timerNumber;
@ -28,7 +28,7 @@ public class LuaThreadTmr extends Thread {
this.delay = delay; this.delay = delay;
this.timerNumber = timerNumber; this.timerNumber = timerNumber;
} }
@Override @Override
public void run() { public void run() {
try { try {

View File

@ -14,6 +14,8 @@ import de.c3ma.ollo.mockup.DoFileFunction;
import de.c3ma.ollo.mockup.ESP8266Adc; import de.c3ma.ollo.mockup.ESP8266Adc;
import de.c3ma.ollo.mockup.ESP8266File; import de.c3ma.ollo.mockup.ESP8266File;
import de.c3ma.ollo.mockup.ESP8266GPIO; import de.c3ma.ollo.mockup.ESP8266GPIO;
import de.c3ma.ollo.mockup.ESP8266Gpio;
import de.c3ma.ollo.mockup.ESP8266Mqtt;
import de.c3ma.ollo.mockup.ESP8266Net; import de.c3ma.ollo.mockup.ESP8266Net;
import de.c3ma.ollo.mockup.ESP8266Node; import de.c3ma.ollo.mockup.ESP8266Node;
import de.c3ma.ollo.mockup.ESP8266Time; import de.c3ma.ollo.mockup.ESP8266Time;
@ -38,6 +40,8 @@ public class WS2812Simulation implements LuaSimulation {
private ESP8266Node espNode = new ESP8266Node(this); private ESP8266Node espNode = new ESP8266Node(this);
private DoFileFunction doFile = new DoFileFunction(globals); private DoFileFunction doFile = new DoFileFunction(globals);
private ESP8266Ws2812 ws2812 = new ESP8266Ws2812(); private ESP8266Ws2812 ws2812 = new ESP8266Ws2812();
private ESP8266Gpio gpio = new ESP8266Gpio();
private ESP8266Mqtt mqtt = new ESP8266Mqtt();
private ESP8266Adc adc = new ESP8266Adc(); private ESP8266Adc adc = new ESP8266Adc();
private String scriptName; private String scriptName;
@ -49,6 +53,8 @@ public class WS2812Simulation implements LuaSimulation {
globals.load(espNode); globals.load(espNode);
globals.load(new ESP8266GPIO()); globals.load(new ESP8266GPIO());
globals.load(adc); globals.load(adc);
globals.load(gpio);
globals.load(mqtt);
globals.load(new ESP8266Wifi()); globals.load(new ESP8266Wifi());
globals.load(new ESP8266Net()); globals.load(new ESP8266Net());
globals.load(new ESP8266Time()); globals.load(new ESP8266Time());

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@ -26,15 +26,19 @@ public class DoFileFunction extends OneArgFunction {
public LuaValue call(LuaValue luaFilename) { public LuaValue call(LuaValue luaFilename) {
String filename = luaFilename.checkjstring(); String filename = luaFilename.checkjstring();
//System.out.println("[Nodemcu] dofile " + filename);
File f = new File(workingDir.getAbsolutePath() + File.separator + filename); File f = new File(workingDir.getAbsolutePath() + File.separator + filename);
try {
if (f.exists()) { if (f.exists()) {
LuaValue chunk = this.globals.loadfile(f.getAbsolutePath()); LuaValue chunk = this.globals.loadfile(f.getAbsolutePath());
return chunk.call(); chunk.call();
} else { return LuaValue.valueOf(true);
return LuaValue.valueOf(false); } else {
return LuaValue.valueOf(false);
}
} catch (Exception e) {
System.err.println("Cannot load " + f.getName());
e.printStackTrace();
return LuaValue.valueOf(false);
} }
} }

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@ -0,0 +1,90 @@
package de.c3ma.ollo.mockup;
import java.util.HashMap;
import javax.swing.SwingUtilities;
import org.luaj.vm2.LuaString;
import org.luaj.vm2.LuaTable;
import org.luaj.vm2.LuaValue;
import org.luaj.vm2.Varargs;
import org.luaj.vm2.lib.OneArgFunction;
import org.luaj.vm2.lib.TwoArgFunction;
import org.luaj.vm2.lib.VarArgFunction;
/**
* created at 18.03.2021 - 21:09:03<br />
* creator: ollo<br />
* project: Esp8266 GPIO Emulation<br />
* $Id: $<br />
* @author ollo<br />
*/
public class ESP8266Gpio extends TwoArgFunction {
private static final String DIRECTION_INPUT = "input";
private HashMap<Integer, Integer> mInputs = new HashMap<Integer, Integer>();
@Override
public LuaValue call(LuaValue modname, LuaValue env) {
env.checkglobals();
final LuaTable gpio = new LuaTable();
gpio.set("mode", new Mode(this));
gpio.set("read", new Read(this));
gpio.set("INPUT", DIRECTION_INPUT);
env.set("gpio", gpio);
env.get("package").get("loaded").set("gpio", gpio);
return gpio;
}
private class Mode extends VarArgFunction {
private ESP8266Gpio gpio;
public Mode(ESP8266Gpio a) {
this.gpio = a;
}
public Varargs invoke(Varargs varargs) {
if (varargs.narg() == 2) {
final int pin = varargs.arg(1).toint();
final LuaString lsDirection = varargs.arg(2).checkstring();
String direction = lsDirection.toString();
if (direction.equals(DIRECTION_INPUT)) {
gpio.mInputs.put(pin, -1);
}
System.out.println("[GPIO] PIN" + pin +" as " + direction);
return LuaValue.valueOf(true);
} else {
return LuaValue.NIL;
}
}
}
private class Read extends OneArgFunction {
private ESP8266Gpio gpio;
public Read(ESP8266Gpio a) {
this.gpio = a;
}
@Override
public LuaValue call(LuaValue arg) {
int pin = arg.toint();
if (mInputs.containsKey(pin)) {
return LuaValue.valueOf(mInputs.get(pin));
} else {
System.out.println("[GPIO] pin" + pin + " not defined (gpio.mode missing)");
return LuaValue.NIL;
}
}
}
public void setPin(int pin, int newValue) {
if (mInputs.containsKey(pin)) {
mInputs.put(pin, newValue);
} else {
System.out.println("[GPIO] PIN" + pin +" not defined (missing gpio.mode)");
}
}
}

View File

@ -0,0 +1,208 @@
package de.c3ma.ollo.mockup;
import java.util.UUID;
import org.eclipse.paho.client.mqttv3.IMqttClient;
import org.eclipse.paho.client.mqttv3.IMqttMessageListener;
import org.eclipse.paho.client.mqttv3.MqttClient;
import org.eclipse.paho.client.mqttv3.MqttConnectOptions;
import org.eclipse.paho.client.mqttv3.MqttException;
import org.eclipse.paho.client.mqttv3.MqttMessage;
import org.eclipse.paho.client.mqttv3.MqttPersistenceException;
import org.eclipse.paho.client.mqttv3.MqttSecurityException;
import org.luaj.vm2.LuaString;
import org.luaj.vm2.LuaTable;
import org.luaj.vm2.LuaValue;
import org.luaj.vm2.Varargs;
import org.luaj.vm2.lib.TwoArgFunction;
import org.luaj.vm2.lib.VarArgFunction;
/**
*
* @author ollo
*
*/
public class ESP8266Mqtt extends TwoArgFunction implements IMqttMessageListener {
private static final String ON_PREFIX = "on_";
private static final String MESSAGE = "message";
private IMqttClient mMqttClient = null;
final LuaTable onMqtt = new LuaTable();
@Override
public LuaValue call(LuaValue modname, LuaValue env) {
env.checkglobals();
final LuaTable mqtt = new LuaTable();
mqtt.set("Client", new LuaMqttClient());
env.set("mqtt", mqtt);
env.get("package").get("loaded").set("tmr", mqtt);
System.out.println("[MQTT] Modlue loaded");
return mqtt;
}
private class LuaMqttClient extends VarArgFunction {
public LuaValue invoke(Varargs varargs) {
final LuaTable dynMqtt = new LuaTable();
if (varargs.narg() == 2) {
final String client = varargs.arg(1).toString().toString();
final int timeout = varargs.arg(2).toint();
dynMqtt.set("on", new OnMqtt(client, timeout));
dynMqtt.set("publish", new PublishMqtt());
dynMqtt.set("subscribe", new SubscribeMqtt());
dynMqtt.set("connect", new ConnectMqtt());
System.out.println("[MQTT] New client: " + client + "(" + timeout+ "s)");
}
return dynMqtt;
}
}
private class OnMqtt extends VarArgFunction {
private String client=null;
private int timeout = 0;
private OnMqtt(String client, int timeout) {
this.client = client;
this.timeout = timeout;
}
public LuaValue invoke(Varargs varargs) {
if (varargs.narg() == 3) {
final LuaTable table = varargs.arg(1).checktable();
final String callback = varargs.arg(2).toString().toString();
final LuaValue code = varargs.arg(3);
System.out.println("[MQTT] On " + this.client + " " + callback);
onMqtt.set(ON_PREFIX + callback, code);
} else {
for(int i=0; i <= varargs.narg(); i++) {
System.err.println("[MQTT] On ["+(i) + "] (" + varargs.arg(i).typename() + ") " + varargs.arg(i).toString() );
}
return LuaValue.NIL;
}
return onMqtt;
}
}
private class PublishMqtt extends VarArgFunction {
public LuaValue invoke(Varargs varargs) {
final LuaTable onMqtt = new LuaTable();
if (varargs.narg() == 5) {
final String topic = varargs.arg(2).toString().toString();
final String message = varargs.arg(3).toString().toString();
final String qos = varargs.arg(4).toString().toString();
final String retain = varargs.arg(4).toString().toString();
if ( !mMqttClient.isConnected()) {
return LuaValue.NIL;
}
MqttMessage msg = new MqttMessage(message.getBytes());
if (qos.equals("0")) {
msg.setQos(0);
}
msg.setRetained(!retain.contentEquals("0"));
try {
mMqttClient.publish(topic,msg);
System.out.println("[MQTT] publish " + topic);
} catch (MqttPersistenceException e) {
System.err.println("[MQTT] publish " + topic + " failed : " + e.getMessage());
} catch (MqttException e) {
System.err.println("[MQTT] publish " + topic + " failed : " + e.getMessage());
}
} else {
for(int i=0; i <= varargs.narg(); i++) {
System.err.println("[MQTT] publish ["+(i) + "] (" + varargs.arg(i).typename() + ") " + varargs.arg(i).toString() );
}
return LuaValue.NIL;
}
return onMqtt;
}
}
private class SubscribeMqtt extends VarArgFunction {
public LuaValue invoke(Varargs varargs) {
final LuaTable onMqtt = new LuaTable();
final int numberArg = varargs.narg();
if (numberArg == 3) {
final String topic = varargs.arg(2).toString().toString();
final int qos = varargs.arg(3).tonumber().toint();
try {
if (mMqttClient != null) {
mMqttClient.subscribe(topic, ESP8266Mqtt.this);
System.out.println("[MQTT] subscribe " + topic + " (QoS " + qos + ")");
} else {
throw new Exception("Client not instantiated");
}
} catch (MqttSecurityException e) {
System.err.println("[MQTT] subscribe " + topic + " (QoS " + qos + ") failed: " + e.getMessage());
e.printStackTrace();
} catch (MqttException e) {
System.err.println("[MQTT] subscribe " + topic + " (QoS " + qos + ") failed: " + e.getMessage());
e.printStackTrace();
} catch (Exception e) {
System.err.println("[MQTT] subscribe " + topic + " (QoS " + qos + ") failed: " + e.getMessage());
}
} else {
for(int i=0; i <= numberArg; i++) {
System.err.println("[MQTT] subscribe ["+(i) + "/" + numberArg + "] (" + varargs.arg(i).typename() + ") " + varargs.arg(i).toString() );
}
return LuaValue.NIL;
}
return onMqtt;
}
}
private class ConnectMqtt extends VarArgFunction {
public LuaValue invoke(Varargs varargs) {
final LuaTable onMqtt = new LuaTable();
if ((varargs.narg() == 6) && (mMqttClient == null)) {
final LuaTable table = varargs.arg(1).checktable();
final String targetIP = varargs.arg(2).toString().toString();
final int portnumber = varargs.arg(3).toint();
final boolean secureTLS = varargs.arg(4).toboolean();
final LuaValue codeOnConnected = varargs.arg(5);
final LuaValue codeOnFailed = varargs.arg(6);
String publisherId = "LuaSim" + UUID.randomUUID().toString();
try {
mMqttClient = new MqttClient("tcp://" + targetIP + ":" + portnumber,publisherId);
MqttConnectOptions options = new MqttConnectOptions();
options.setAutomaticReconnect(false);
options.setCleanSession(true);
options.setConnectionTimeout(10);
mMqttClient.connect(options);
System.out.println("[MQTT] connected to " + targetIP + ":" + portnumber);
codeOnConnected.call();
} catch (MqttException e) {
System.err.println("[MQTT] connect failed : " + e.getMessage());
codeOnFailed.call();
}
} else if (mMqttClient != null) {
System.err.println("[MQTT] client already exists : " + mMqttClient);
return LuaValue.NIL;
} else {
for(int i=0; i <= varargs.narg(); i++) {
System.err.println("[MQTT] connect ["+(i) + "] (" + varargs.arg(i).typename() + ") " + varargs.arg(i).toString() );
}
return LuaValue.NIL;
}
return onMqtt;
}
}
@Override
public void messageArrived(String topic, MqttMessage message) throws Exception {
LuaValue messageCallback = onMqtt.get(ON_PREFIX + MESSAGE);
if (messageCallback != null) {
LuaValue call2 = messageCallback.call(LuaValue.NIL,
LuaValue.valueOf(topic),
LuaValue.valueOf(message.getPayload()));
//FIXME call the LUA code
} else {
System.err.println("[MQTT] message "+ topic + " : " + message + " without callback");
}
}
}

View File

@ -34,6 +34,7 @@ public class ESP8266Node extends TwoArgFunction {
final LuaTable node = new LuaTable(); final LuaTable node = new LuaTable();
node.set("compile", new CompileFunction()); node.set("compile", new CompileFunction());
node.set("restart", new RestartFunction()); node.set("restart", new RestartFunction());
node.set("heap", new HeapFunction());
env.set("node", node); env.set("node", node);
env.get("package").get("loaded").set("node", node); env.get("package").get("loaded").set("node", node);
return node; return node;
@ -73,6 +74,18 @@ public class ESP8266Node extends TwoArgFunction {
} }
private class HeapFunction extends ZeroArgFunction {
@Override
public LuaValue call() {
System.out.println("[Node] Heap");
return LuaValue.valueOf(Runtime.getRuntime().freeMemory());
}
}
public void setWorkingDirectory(File workingDir) { public void setWorkingDirectory(File workingDir) {
this.workingDir = workingDir; this.workingDir = workingDir;
} }

View File

@ -6,6 +6,7 @@ import org.luaj.vm2.Varargs;
import org.luaj.vm2.lib.OneArgFunction; import org.luaj.vm2.lib.OneArgFunction;
import org.luaj.vm2.lib.TwoArgFunction; import org.luaj.vm2.lib.TwoArgFunction;
import org.luaj.vm2.lib.VarArgFunction; import org.luaj.vm2.lib.VarArgFunction;
import org.luaj.vm2.lib.ZeroArgFunction;
import de.c3ma.ollo.LuaThreadTmr; import de.c3ma.ollo.LuaThreadTmr;
@ -18,9 +19,11 @@ import de.c3ma.ollo.LuaThreadTmr;
*/ */
public class ESP8266Tmr extends TwoArgFunction { public class ESP8266Tmr extends TwoArgFunction {
private static final int MAXTHREADS = 7; private static final int MAXTHREADS = 10;
private static LuaThreadTmr[] allThreads = new LuaThreadTmr[MAXTHREADS]; private static LuaThreadTmr[] allThreads = new LuaThreadTmr[MAXTHREADS];
private static LuaThreadTmr[] dynamicThreads = new LuaThreadTmr[MAXTHREADS];
private static int dynamicThreadCounter=0;
public static int gTimingFactor = 1; public static int gTimingFactor = 1;
@ -30,6 +33,10 @@ public class ESP8266Tmr extends TwoArgFunction {
final LuaTable tmr = new LuaTable(); final LuaTable tmr = new LuaTable();
tmr.set("stop", new stop()); tmr.set("stop", new stop());
tmr.set("alarm", new alarm()); tmr.set("alarm", new alarm());
tmr.set("create", new create());
tmr.set("wdclr", new watchDog());
tmr.set("ALARM_AUTO", "ALARM_AUTO");
tmr.set("ALARM_SINGLE", "ALARM_SINGLE");
env.set("tmr", tmr); env.set("tmr", tmr);
env.get("package").get("loaded").set("tmr", tmr); env.get("package").get("loaded").set("tmr", tmr);
@ -37,6 +44,9 @@ public class ESP8266Tmr extends TwoArgFunction {
for (Thread t : allThreads) { for (Thread t : allThreads) {
t = null; t = null;
} }
for (Thread t : dynamicThreads) {
t = null;
}
return tmr; return tmr;
} }
@ -87,6 +97,79 @@ public class ESP8266Tmr extends TwoArgFunction {
} }
} }
private class dynRegister extends VarArgFunction {
private final int dynIndex;
public dynRegister(int index) {
this.dynIndex = index;
}
public Varargs invoke(Varargs varargs) {
if (varargs.narg() == 4) {
final String endlessloop = varargs.arg(3).toString().toString();
final int delay = varargs.arg(2).toint();
final LuaValue code = varargs.arg(4);
dynamicThreads[dynIndex] = new LuaThreadTmr(dynIndex, code, (endlessloop.contains("AUTO")), Math.max(delay / gTimingFactor, 1));
System.out.println("[TMR] DynTimer" + dynIndex + " registered");
}
return LuaValue.valueOf(true);
}
}
private class dynStart extends ZeroArgFunction {
private final int dynIndex;
public dynStart(int index) {
this.dynIndex = index;
}
public LuaValue call() {
if (dynamicThreads[dynIndex] != null) {
dynamicThreads[dynIndex].start();
System.out.println("[TMR] DynTimer" + dynIndex + " started");
return LuaValue.valueOf(true);
} else {
return LuaValue.valueOf(false);
}
}
}
private class watchDog extends ZeroArgFunction {
public LuaValue call() {
System.out.println("[TMR] Watchdog fed");
return LuaValue.valueOf(true);
}
}
private class dynStop extends ZeroArgFunction {
private final int dynIndex;
public dynStop(int index) {
this.dynIndex = index;
}
public LuaValue call() {
boolean status = false;
if (dynamicThreads[dynIndex] != null) {
dynamicThreads[dynIndex].stopThread();
dynamicThreads[dynIndex] = null;
System.out.println("[TMR] DynTimer" + dynIndex + " stopped");
status = true;
}
return LuaValue.valueOf(status);
}
}
private class create extends ZeroArgFunction {
public LuaValue call() {
if (dynamicThreadCounter >= MAXTHREADS) {
return LuaValue.error("[TMR] DynTimer" + dynamicThreadCounter + " exeeded maximum");
}
final LuaTable dynTimer = new LuaTable();
dynTimer.set("register", new dynRegister(dynamicThreadCounter));
dynTimer.set("start", new dynStart(dynamicThreadCounter));
dynTimer.set("unregister", new dynStop(dynamicThreadCounter));
dynamicThreadCounter++;
return dynTimer;
}
}
public void stopAllTimer() { public void stopAllTimer() {
for (int i = 0; i < allThreads.length; i++) { for (int i = 0; i < allThreads.length; i++) {
stopTmr(i); stopTmr(i);

View File

@ -1,14 +1,18 @@
package de.c3ma.ollo.mockup; package de.c3ma.ollo.mockup;
import java.awt.Color;
import java.io.File; import java.io.File;
import java.util.ArrayList;
import javax.swing.SwingUtilities; import javax.swing.SwingUtilities;
import org.luaj.vm2.LuaString; import org.luaj.vm2.LuaString;
import org.luaj.vm2.LuaTable; import org.luaj.vm2.LuaTable;
import org.luaj.vm2.LuaValue; import org.luaj.vm2.LuaValue;
import org.luaj.vm2.Varargs;
import org.luaj.vm2.lib.OneArgFunction; import org.luaj.vm2.lib.OneArgFunction;
import org.luaj.vm2.lib.TwoArgFunction; import org.luaj.vm2.lib.TwoArgFunction;
import org.luaj.vm2.lib.VarArgFunction;
import org.luaj.vm2.lib.ZeroArgFunction; import org.luaj.vm2.lib.ZeroArgFunction;
import de.c3ma.ollo.LuaSimulation; import de.c3ma.ollo.LuaSimulation;
@ -32,6 +36,7 @@ public class ESP8266Ws2812 extends TwoArgFunction {
final LuaTable ws2812 = new LuaTable(); final LuaTable ws2812 = new LuaTable();
ws2812.set("init", new init()); ws2812.set("init", new init());
ws2812.set("write", new write()); ws2812.set("write", new write());
ws2812.set("newBuffer", new newBuffer());
env.set("ws2812", ws2812); env.set("ws2812", ws2812);
env.get("package").get("loaded").set("ws2812", ws2812); env.get("package").get("loaded").set("ws2812", ws2812);
return ws2812; return ws2812;
@ -54,6 +59,12 @@ public class ESP8266Ws2812 extends TwoArgFunction {
if (arg.isstring()) { if (arg.isstring()) {
LuaString jstring = arg.checkstring(); LuaString jstring = arg.checkstring();
final int length = jstring.rawlen(); final int length = jstring.rawlen();
if (ESP8266Ws2812.layout == null) {
System.err.println("[WS2812] Not initialized (" + length + "bytes to be updated)");
return LuaValue.valueOf(false);
}
if ((length % 3) == 0) { if ((length % 3) == 0) {
final byte[] array = jstring.m_bytes; final byte[] array = jstring.m_bytes;
SwingUtilities.invokeLater(new Runnable() { SwingUtilities.invokeLater(new Runnable() {
@ -70,13 +81,11 @@ public class ESP8266Ws2812 extends TwoArgFunction {
} }
}); });
} }
return LuaValue.valueOf(true);
if (ESP8266Ws2812.layout == null) { } else {
System.out.println("[WS2812] write length:" + length); System.out.println("[WS2812] write no string given");
} else { return LuaValue.NIL;
}
} }
return LuaValue.valueOf(true);
} }
} }
@ -85,4 +94,175 @@ public class ESP8266Ws2812 extends TwoArgFunction {
ESP8266Ws2812.layout = WS2812Layout.parse(file, nodemcuSimu); ESP8266Ws2812.layout = WS2812Layout.parse(file, nodemcuSimu);
} }
} }
private class newBuffer extends VarArgFunction {
public Varargs invoke(Varargs varargs) {
if (varargs.narg() == 2) {
final int leds = varargs.arg(1).toint();
final int bytesPerLeds = varargs.arg(2).toint();
final LuaTable rgbBuffer = new LuaTable();
ArrayList<Color> ledList = new ArrayList<Color>();
for(int i=0; i < leds; i++) {
ledList.add(new Color(0,0,0));
}
rgbBuffer.set("fill", new bufferFill(ledList));
rgbBuffer.set("set", new bufferWrite(ledList));
rgbBuffer.set("get", new bufferRead(ledList));
System.out.println("[WS2812] " + leds + "leds (" + bytesPerLeds + "bytes per led)");
return rgbBuffer;
} else {
return LuaValue.NIL;
}
}
}
private class bufferFill extends VarArgFunction {
private ArrayList<Color> ledList = null;
public bufferFill(ArrayList<Color> ledList) {
this.ledList = ledList;
}
public Varargs invoke(Varargs varargs) {
if (varargs.narg() == 4) {
/* first argument is the object itself */
final int red = varargs.arg(2).toint();
final int green = varargs.arg(3).toint();
final int blue = varargs.arg(4).toint();
/* update local buffer */
for(int i=0; i < ledList.size(); i++) {
ledList.set(i, new Color(red, green, blue));
}
/* Update GUI */
if (ESP8266Ws2812.layout != null) {
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
ESP8266Ws2812.layout.fillLEDs(red, green, blue);
}
});
}
System.out.println("[WS2812] buffer fill with " + red + "," + green + "," + blue);
return LuaValue.valueOf(true);
} else if (varargs.isstring(2)) {
final LuaString color = varargs.arg(2).checkstring();
final int length = color.rawlen();
if ((length == 3) && (ESP8266Ws2812.layout != null)) {
final byte[] array = color.m_bytes;
final int r = array[0]+(Byte.MIN_VALUE*-1);
final int b = array[1]+(Byte.MIN_VALUE*-1);
final int g = array[2]+(Byte.MIN_VALUE*-1);
/* update local buffer */
for(int i=0; i < ledList.size(); i++) {
ledList.set(i, new Color(r, g, b));
}
/* Update GUI */
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
ESP8266Ws2812.layout.fillLEDs(r, g, b);
}
});
//System.out.println("[WS2812] buffer fill with " + r + "," + g + "," + b);
return LuaValue.valueOf(true);
} else {
System.err.println("[WS2812] buffer not initialized ("+varargs.narg() +"args) , length "+ length + ", raw:" + color.toString());
return LuaValue.NIL;
}
} else {
System.err.println("[WS2812] fill with " + varargs.narg() + " arguments undefined.");
return LuaValue.NIL;
}
}
}
private class bufferWrite extends VarArgFunction {
private ArrayList<Color> ledList = null;
public bufferWrite(ArrayList<Color> ledList) {
this.ledList = ledList;
}
public Varargs invoke(Varargs varargs) {
if (varargs.narg() == 3) {
final int index = varargs.arg(2).toint();
final LuaString color = varargs.arg(3).checkstring();
final int length = color.rawlen();
if (length == 3) {
final byte[] array = color.m_bytes;
final int r = array[0]+(Byte.MIN_VALUE*-1);
final int b = array[1]+(Byte.MIN_VALUE*-1);
final int g = array[2]+(Byte.MIN_VALUE*-1);
// update buffer
ledList.set(index - 1, new Color(r, g, b));
// update GUI
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
ESP8266Ws2812.layout.updateLED(index - 1, r, g, b);
}
});
return LuaValue.valueOf(true);
} else {
System.err.println("[WS2812] set with " + varargs.narg() + " arguments at index="+ index + " and "+ length + " charactes not matching");
return LuaValue.NIL;
}
} else if (varargs.narg() == 5) {
final int index = varargs.arg(2).toint();
final int green = varargs.arg(3).toint();
final int red = varargs.arg(4).toint();
final int blue = varargs.arg(5).toint();
// update buffer
ledList.set(index - 1, new Color(red, green, blue));
// update GUI
SwingUtilities.invokeLater(new Runnable() {
@Override
public void run() {
ESP8266Ws2812.layout.updateLED(index - 1, red, green, blue);
}
});
return LuaValue.valueOf(true);
} else {
for(int i=0; i <= varargs.narg(); i++) {
System.err.println("[WS2812] write ["+(i) + "] (" + varargs.arg(i).typename() + ") " + varargs.arg(i).toString() );
}
System.err.println("[WS2812] set with " + varargs.narg() + " arguments undefined.");
return LuaValue.NIL;
}
}
}
private class bufferRead extends VarArgFunction {
private ArrayList<Color> ledList = null;
public bufferRead(ArrayList<Color> ledList) {
this.ledList = ledList;
}
@Override
public Varargs invoke(Varargs varargs) {
final int offset = varargs.arg(2).toint();
if (ledList != null) {
// receiver from buffer
Color color = ledList.get(offset - 1);
final char[] array = new char[3];
array[0] = (char) (color.getRed() );
array[1] = (char) (color.getGreen() );
array[2] = (char) (color.getBlue() );
// System.err.println("[WS2812] reading " + offset + ":" + ((int)array[0]) +"," + ((int) array[1]) + "," + ((int) array[2]) + " from " + color);
return LuaString.valueOf(array);
}
System.err.println("[WS2812] reading " + offset + " impossible");
return LuaValue.NIL;
}
}
} }

View File

@ -288,6 +288,10 @@ public class WS2812Layout extends JFrame {
this.setForeground(new Color(red, green, blue)); this.setForeground(new Color(red, green, blue));
this.repaint(); this.repaint();
} }
public Color getColor() {
return this.getForeground();
}
@Override @Override
public String toString() { public String toString() {
@ -319,5 +323,40 @@ public class WS2812Layout extends JFrame {
} }
} }
} }
public Element getLED(int index) {
if (mElements != null) {
int i = (index / mColumn);
int j = (index % mColumn);
if (i % 2 == 1) {
j = (mColumn-1) - j;
}
if (i < 0 || j < 0) {
System.err.println("LED index" + index + " results in " + i + "x" + j + " coordinate");
return null;
}
if ((i < mElements.length) && (j < mElements[i].length) && (mElements[i][j] != null)) {
return mElements[i][j];
} else {
return null;
}
} else {
return null;
}
}
public void fillLEDs(int r, int g, int b) {
if (mElements != null) {
for(int i=0;(i < mElements.length); i++) {
for (int j=0; (j < mElements[i].length); j++) {
if (mElements[i][j] != null) {
Element curlbl = mElements[i][j];
curlbl.setColor(r, g, b);
}
}
}
}
}
} }

51
telnet.lua Normal file
View File

@ -0,0 +1,51 @@
-- Telnet client
--[[ A telnet server T. Ellison, June 2019
This version of the telnet server demonstrates the use of the new stdin and stout
pipes, which is a C implementation of the Lua fifosock concept moved into the
Lua core. These two pipes are referenced in the Lua registry.
]]
--luacheck: no unused args
local telnetS = nil
local function telnet_session(socket)
local node = node
local stdout
local function output_CB(opipe) -- upval: socket
stdout = opipe
local rec = opipe:read(1400)
if rec and (#rec > 0) then socket:send(rec) end
return false -- don't repost as the on:sent will do this
end
local function onsent_CB(skt) -- upval: stdout
local rec = stdout:read(1400)
if rec and #rec > 0 then skt:send(rec) end
end
local function disconnect_CB(skt) -- upval: socket, stdout
node.output()
socket, stdout = nil, nil -- set upvals to nl to allow GC
end
node.output(output_CB, 0)
socket:on("receive", function(_,rec) node.input(rec) end)
socket:on("sent", onsent_CB)
socket:on("disconnection", disconnect_CB)
print( ("Welcome to the Wordclock. (%d mem free, %s)"):format(node.heap(), wifi.sta.getip()))
print("- mydofile(\"commands\")")
print("- storeConfig()")
print("Visite https://github.com/nodemcu/nodemcu-firmware/wiki/nodemcu_api_en for further commands")
uart.write(0, "New client connected\r\n")
end
-- Telnet Server
function startTelnetServer()
telnetS=net.createServer(net.TCP, 180)
telnetS:listen(23, telnet_session)
print("Telnetserver started")
end

View File

@ -1,3 +1,6 @@
local M
do
--Summer winter time convertion --Summer winter time convertion
--See: https://arduinodiy.wordpress.com/2015/10/13/the-arduino-and-daylight-saving-time/ --See: https://arduinodiy.wordpress.com/2015/10/13/the-arduino-and-daylight-saving-time/
-- --
@ -27,7 +30,7 @@
-- @var dow Current day of week range (1 - 7) (1 is Monday, 7 is Sunday) -- @var dow Current day of week range (1 - 7) (1 is Monday, 7 is Sunday)
-- @return <code>true</code> if we have currently summer time -- @return <code>true</code> if we have currently summer time
-- @return <code>false</code> if we have winter time -- @return <code>false</code> if we have winter time
function isSummerTime(time) local function isSummerTime(time)
-- we are in 100% in the summer time -- we are in 100% in the summer time
if (time.month > 3 and time.month < 10) then if (time.month > 3 and time.month < 10) then
return true return true
@ -103,7 +106,7 @@ local yearsize = function(year)
end end
end end
function getUTCtime(unixtimestmp) local function getUTCtime(unixtimestmp)
local year = EPOCH_YR local year = EPOCH_YR
local dayclock = math.floor(unixtimestmp % SECS_DAY) local dayclock = math.floor(unixtimestmp % SECS_DAY)
local dayno = math.floor(unixtimestmp / SECS_DAY) local dayno = math.floor(unixtimestmp / SECS_DAY)
@ -131,10 +134,16 @@ function getUTCtime(unixtimestmp)
end end
function getTime(unixtimestmp, timezoneoffset) local getTime = function(unixtimestmp, timezoneoffset)
local time = getUTCtime(unixtimestmp + (3600 * timezoneoffset)) local time = getUTCtime(unixtimestmp + (3600 * timezoneoffset))
if ( isSummerTime(time) ) then if ( isSummerTime(time) ) then
time = getUTCtime(unixtimestmp + (3600 * (timezoneoffset + 1)) ) time = getUTCtime(unixtimestmp + (3600 * (timezoneoffset + 1)) )
end end
return time return time
end end
-- Pack everything into a module
M = {
getTime = getTime
}
end
tc = M

View File

@ -1,2 +1,13 @@
# Source: # luatool.py
Version 0.8.0 upgraded supported with python 3.x
## Source:
https://github.com/4refr0nt/luatool/tree/master/luatool https://github.com/4refr0nt/luatool/tree/master/luatool
# LuaSrcDiet
LuaSrcDiet reduces the size of Lua 5.1+ source files by aggressively removing all unnecessary whitespace and comments, optimizing constant tokens, and renaming local variables to shorter names.
* https://github.com/jirutka/luasrcdiet
## Source:
https://raw.githubusercontent.com/jirutka/luasrcdiet/master/bin/luasrcdiet
## Example:
bin/luasrcdiet ../webserver.lua -o ../webserver_diet.lua

653
tools/bin/luasrcdiet Executable file
View File

@ -0,0 +1,653 @@
#!/usr/bin/env lua
---------
-- LuaSrcDiet
--
-- Compresses Lua source code by removing unnecessary characters.
-- For Lua 5.1+ source code.
--
-- **Notes:**
--
-- * Remember to update version and date information below (MSG_TITLE).
-- * TODO: passing data tables around is a horrific mess.
-- * TODO: to implement pcall() to properly handle lexer etc. errors.
-- * TODO: need some automatic testing for a semblance of sanity.
-- * TODO: the plugin module is highly experimental and unstable.
----
local equiv = require "luasrcdiet.equiv"
local fs = require "luasrcdiet.fs"
local llex = require "luasrcdiet.llex"
local lparser = require "luasrcdiet.lparser"
local luasrcdiet = require "luasrcdiet.init"
local optlex = require "luasrcdiet.optlex"
local optparser = require "luasrcdiet.optparser"
local byte = string.byte
local concat = table.concat
local find = string.find
local fmt = string.format
local gmatch = string.gmatch
local match = string.match
local print = print
local rep = string.rep
local sub = string.sub
local plugin
local LUA_VERSION = match(_VERSION, " (5%.[123])$") or "5.1"
-- Is --opt-binequiv available for this Lua version?
local BIN_EQUIV_AVAIL = LUA_VERSION == "5.1" and not package.loaded.jit
---------------------- Messages and textual data ----------------------
local MSG_TITLE = fmt([[
LuaSrcDiet: Puts your Lua 5.1+ source code on a diet
Version %s <%s>
]], luasrcdiet._VERSION, luasrcdiet._HOMEPAGE)
local MSG_USAGE = [[
usage: luasrcdiet [options] [filenames]
example:
>luasrcdiet myscript.lua -o myscript_.lua
options:
-v, --version prints version information
-h, --help prints usage information
-o <file> specify file name to write output
-s <suffix> suffix for output files (default '_')
--keep <msg> keep block comment with <msg> inside
--plugin <module> run <module> in plugin/ directory
- stop handling arguments
(optimization levels)
--none all optimizations off (normalizes EOLs only)
--basic lexer-based optimizations only
--maximum maximize reduction of source
(informational)
--quiet process files quietly
--read-only read file and print token stats only
--dump-lexer dump raw tokens from lexer to stdout
--dump-parser dump variable tracking tables from parser
--details extra info (strings, numbers, locals)
features (to disable, insert 'no' prefix like --noopt-comments):
%s
default settings:
%s]]
-- Optimization options, for ease of switching on and off.
--
-- * Positive to enable optimization, negative (no) to disable.
-- * These options should follow --opt-* and --noopt-* style for now.
local OPTION = [[
--opt-comments,'remove comments and block comments'
--opt-whitespace,'remove whitespace excluding EOLs'
--opt-emptylines,'remove empty lines'
--opt-eols,'all above, plus remove unnecessary EOLs'
--opt-strings,'optimize strings and long strings'
--opt-numbers,'optimize numbers'
--opt-locals,'optimize local variable names'
--opt-entropy,'tries to reduce symbol entropy of locals'
--opt-srcequiv,'insist on source (lexer stream) equivalence'
--opt-binequiv,'insist on binary chunk equivalence (only for PUC Lua 5.1)'
--opt-experimental,'apply experimental optimizations'
]]
-- Preset configuration.
local DEFAULT_CONFIG = [[
--opt-comments --opt-whitespace --opt-emptylines
--opt-numbers --opt-locals
--opt-srcequiv --noopt-binequiv
]]
-- Override configurations: MUST explicitly enable/disable everything.
local BASIC_CONFIG = [[
--opt-comments --opt-whitespace --opt-emptylines
--noopt-eols --noopt-strings --noopt-numbers
--noopt-locals --noopt-entropy
--opt-srcequiv --noopt-binequiv
]]
local MAXIMUM_CONFIG = [[
--opt-comments --opt-whitespace --opt-emptylines
--opt-eols --opt-strings --opt-numbers
--opt-locals --opt-entropy
--opt-srcequiv
]] .. (BIN_EQUIV_AVAIL and ' --opt-binequiv' or ' --noopt-binequiv')
local NONE_CONFIG = [[
--noopt-comments --noopt-whitespace --noopt-emptylines
--noopt-eols --noopt-strings --noopt-numbers
--noopt-locals --noopt-entropy
--opt-srcequiv --noopt-binequiv
]]
local DEFAULT_SUFFIX = "_" -- default suffix for file renaming
local PLUGIN_SUFFIX = "luasrcdiet.plugin." -- relative location of plugins
------------- Startup and initialize option list handling -------------
--- Simple error message handler; change to error if traceback wanted.
--
-- @tparam string msg The message to print.
local function die(msg)
print("LuaSrcDiet (error): "..msg); os.exit(1)
end
--die = error--DEBUG
-- Prepare text for list of optimizations, prepare lookup table.
local MSG_OPTIONS = ""
do
local WIDTH = 24
local o = {}
for op, desc in gmatch(OPTION, "%s*([^,]+),'([^']+)'") do
local msg = " "..op
msg = msg..rep(" ", WIDTH - #msg)..desc.."\n"
MSG_OPTIONS = MSG_OPTIONS..msg
o[op] = true
o["--no"..sub(op, 3)] = true
end
OPTION = o -- replace OPTION with lookup table
end
MSG_USAGE = fmt(MSG_USAGE, MSG_OPTIONS, DEFAULT_CONFIG)
--------- Global variable initialization, option set handling ---------
local suffix = DEFAULT_SUFFIX -- file suffix
local option = {} -- program options
local stat_c, stat_l -- statistics tables
--- Sets option lookup table based on a text list of options.
--
-- Note: additional forced settings for --opt-eols is done in optlex.lua.
--
-- @tparam string CONFIG
local function set_options(CONFIG)
for op in gmatch(CONFIG, "(%-%-%S+)") do
if sub(op, 3, 4) == "no" and -- handle negative options
OPTION["--"..sub(op, 5)] then
option[sub(op, 5)] = false
else
option[sub(op, 3)] = true
end
end
end
-------------------------- Support functions --------------------------
-- List of token types, parser-significant types are up to TTYPE_GRAMMAR
-- while the rest are not used by parsers; arranged for stats display.
local TTYPES = {
"TK_KEYWORD", "TK_NAME", "TK_NUMBER", -- grammar
"TK_STRING", "TK_LSTRING", "TK_OP",
"TK_EOS",
"TK_COMMENT", "TK_LCOMMENT", -- non-grammar
"TK_EOL", "TK_SPACE",
}
local TTYPE_GRAMMAR = 7
local EOLTYPES = { -- EOL names for token dump
["\n"] = "LF", ["\r"] = "CR",
["\n\r"] = "LFCR", ["\r\n"] = "CRLF",
}
--- Reads source code from the file.
--
-- @tparam string fname Path of the file to read.
-- @treturn string Content of the file.
local function load_file(fname)
local data, err = fs.read_file(fname, "rb")
if not data then die(err) end
return data
end
--- Saves source code to the file.
--
-- @tparam string fname Path of the destination file.
-- @tparam string dat The data to write into the file.
local function save_file(fname, dat)
local ok, err = fs.write_file(fname, dat, "wb")
if not ok then die(err) end
end
------------------ Functions to deal with statistics ------------------
--- Initializes the statistics table.
local function stat_init()
stat_c, stat_l = {}, {}
for i = 1, #TTYPES do
local ttype = TTYPES[i]
stat_c[ttype], stat_l[ttype] = 0, 0
end
end
--- Adds a token to the statistics table.
--
-- @tparam string tok The token.
-- @param seminfo
local function stat_add(tok, seminfo)
stat_c[tok] = stat_c[tok] + 1
stat_l[tok] = stat_l[tok] + #seminfo
end
--- Computes totals for the statistics table, returns average table.
--
-- @treturn table
local function stat_calc()
local function avg(c, l) -- safe average function
if c == 0 then return 0 end
return l / c
end
local stat_a = {}
local c, l = 0, 0
for i = 1, TTYPE_GRAMMAR do -- total grammar tokens
local ttype = TTYPES[i]
c = c + stat_c[ttype]; l = l + stat_l[ttype]
end
stat_c.TOTAL_TOK, stat_l.TOTAL_TOK = c, l
stat_a.TOTAL_TOK = avg(c, l)
c, l = 0, 0
for i = 1, #TTYPES do -- total all tokens
local ttype = TTYPES[i]
c = c + stat_c[ttype]; l = l + stat_l[ttype]
stat_a[ttype] = avg(stat_c[ttype], stat_l[ttype])
end
stat_c.TOTAL_ALL, stat_l.TOTAL_ALL = c, l
stat_a.TOTAL_ALL = avg(c, l)
return stat_a
end
----------------------------- Main tasks -----------------------------
--- A simple token dumper, minimal translation of seminfo data.
--
-- @tparam string srcfl Path of the source file.
local function dump_tokens(srcfl)
-- Load file and process source input into tokens.
local z = load_file(srcfl)
local toklist, seminfolist = llex.lex(z)
-- Display output.
for i = 1, #toklist do
local tok, seminfo = toklist[i], seminfolist[i]
if tok == "TK_OP" and byte(seminfo) < 32 then
seminfo = "("..byte(seminfo)..")"
elseif tok == "TK_EOL" then
seminfo = EOLTYPES[seminfo]
else
seminfo = "'"..seminfo.."'"
end
print(tok.." "..seminfo)
end--for
end
--- Dumps globalinfo and localinfo tables.
--
-- @tparam string srcfl Path of the source file.
local function dump_parser(srcfl)
-- Load file and process source input into tokens,
local z = load_file(srcfl)
local toklist, seminfolist, toklnlist = llex.lex(z)
-- Do parser optimization here.
local xinfo = lparser.parse(toklist, seminfolist, toklnlist)
local globalinfo, localinfo = xinfo.globalinfo, xinfo.localinfo
-- Display output.
local hl = rep("-", 72)
print("*** Local/Global Variable Tracker Tables ***")
print(hl.."\n GLOBALS\n"..hl)
-- global tables have a list of xref numbers only
for i = 1, #globalinfo do
local obj = globalinfo[i]
local msg = "("..i..") '"..obj.name.."' -> "
local xref = obj.xref
for j = 1, #xref do msg = msg..xref[j].." " end
print(msg)
end
-- Local tables have xref numbers and a few other special
-- numbers that are specially named: decl (declaration xref),
-- act (activation xref), rem (removal xref).
print(hl.."\n LOCALS (decl=declared act=activated rem=removed)\n"..hl)
for i = 1, #localinfo do
local obj = localinfo[i]
local msg = "("..i..") '"..obj.name.."' decl:"..obj.decl..
" act:"..obj.act.." rem:"..obj.rem
if obj.is_special then
msg = msg.." is_special"
end
msg = msg.." -> "
local xref = obj.xref
for j = 1, #xref do msg = msg..xref[j].." " end
print(msg)
end
print(hl.."\n")
end
--- Reads source file(s) and reports some statistics.
--
-- @tparam string srcfl Path of the source file.
local function read_only(srcfl)
-- Load file and process source input into tokens.
local z = load_file(srcfl)
local toklist, seminfolist = llex.lex(z)
print(MSG_TITLE)
print("Statistics for: "..srcfl.."\n")
-- Collect statistics.
stat_init()
for i = 1, #toklist do
local tok, seminfo = toklist[i], seminfolist[i]
stat_add(tok, seminfo)
end--for
local stat_a = stat_calc()
-- Display output.
local function figures(tt)
return stat_c[tt], stat_l[tt], stat_a[tt]
end
local tabf1, tabf2 = "%-16s%8s%8s%10s", "%-16s%8d%8d%10.2f"
local hl = rep("-", 42)
print(fmt(tabf1, "Lexical", "Input", "Input", "Input"))
print(fmt(tabf1, "Elements", "Count", "Bytes", "Average"))
print(hl)
for i = 1, #TTYPES do
local ttype = TTYPES[i]
print(fmt(tabf2, ttype, figures(ttype)))
if ttype == "TK_EOS" then print(hl) end
end
print(hl)
print(fmt(tabf2, "Total Elements", figures("TOTAL_ALL")))
print(hl)
print(fmt(tabf2, "Total Tokens", figures("TOTAL_TOK")))
print(hl.."\n")
end
--- Processes source file(s), writes output and reports some statistics.
--
-- @tparam string srcfl Path of the source file.
-- @tparam string destfl Path of the destination file where to write optimized source.
local function process_file(srcfl, destfl)
-- handle quiet option
local function print(...) --luacheck: ignore 431
if option.QUIET then return end
_G.print(...)
end
if plugin and plugin.init then -- plugin init
option.EXIT = false
plugin.init(option, srcfl, destfl)
if option.EXIT then return end
end
print(MSG_TITLE) -- title message
-- Load file and process source input into tokens.
local z = load_file(srcfl)
if plugin and plugin.post_load then -- plugin post-load
z = plugin.post_load(z) or z
if option.EXIT then return end
end
local toklist, seminfolist, toklnlist = llex.lex(z)
if plugin and plugin.post_lex then -- plugin post-lex
plugin.post_lex(toklist, seminfolist, toklnlist)
if option.EXIT then return end
end
-- Collect 'before' statistics.
stat_init()
for i = 1, #toklist do
local tok, seminfo = toklist[i], seminfolist[i]
stat_add(tok, seminfo)
end--for
local stat1_a = stat_calc()
local stat1_c, stat1_l = stat_c, stat_l
-- Do parser optimization here.
optparser.print = print -- hack
local xinfo = lparser.parse(toklist, seminfolist, toklnlist)
if plugin and plugin.post_parse then -- plugin post-parse
plugin.post_parse(xinfo.globalinfo, xinfo.localinfo)
if option.EXIT then return end
end
optparser.optimize(option, toklist, seminfolist, xinfo)
if plugin and plugin.post_optparse then -- plugin post-optparse
plugin.post_optparse()
if option.EXIT then return end
end
-- Do lexer optimization here, save output file.
local warn = optlex.warn -- use this as a general warning lookup
optlex.print = print -- hack
toklist, seminfolist, toklnlist
= optlex.optimize(option, toklist, seminfolist, toklnlist)
if plugin and plugin.post_optlex then -- plugin post-optlex
plugin.post_optlex(toklist, seminfolist, toklnlist)
if option.EXIT then return end
end
local dat = concat(seminfolist)
-- Depending on options selected, embedded EOLs in long strings and
-- long comments may not have been translated to \n, tack a warning.
if find(dat, "\r\n", 1, 1) or
find(dat, "\n\r", 1, 1) then
warn.MIXEDEOL = true
end
-- Test source and binary chunk equivalence.
equiv.init(option, llex, warn)
equiv.source(z, dat)
if BIN_EQUIV_AVAIL then
equiv.binary(z, dat)
end
local smsg = "before and after lexer streams are NOT equivalent!"
local bmsg = "before and after binary chunks are NOT equivalent!"
-- for reporting, die if option was selected, else just warn
if warn.SRC_EQUIV then
if option["opt-srcequiv"] then die(smsg) end
else
print("*** SRCEQUIV: token streams are sort of equivalent")
if option["opt-locals"] then
print("(but no identifier comparisons since --opt-locals enabled)")
end
print()
end
if warn.BIN_EQUIV then
if option["opt-binequiv"] then die(bmsg) end
elseif BIN_EQUIV_AVAIL then
print("*** BINEQUIV: binary chunks are sort of equivalent")
print()
end
-- Save optimized source stream to output file.
save_file(destfl, dat)
-- Collect 'after' statistics.
stat_init()
for i = 1, #toklist do
local tok, seminfo = toklist[i], seminfolist[i]
stat_add(tok, seminfo)
end--for
local stat_a = stat_calc()
-- Display output.
print("Statistics for: "..srcfl.." -> "..destfl.."\n")
local function figures(tt)
return stat1_c[tt], stat1_l[tt], stat1_a[tt],
stat_c[tt], stat_l[tt], stat_a[tt]
end
local tabf1, tabf2 = "%-16s%8s%8s%10s%8s%8s%10s",
"%-16s%8d%8d%10.2f%8d%8d%10.2f"
local hl = rep("-", 68)
print("*** lexer-based optimizations summary ***\n"..hl)
print(fmt(tabf1, "Lexical",
"Input", "Input", "Input",
"Output", "Output", "Output"))
print(fmt(tabf1, "Elements",
"Count", "Bytes", "Average",
"Count", "Bytes", "Average"))
print(hl)
for i = 1, #TTYPES do
local ttype = TTYPES[i]
print(fmt(tabf2, ttype, figures(ttype)))
if ttype == "TK_EOS" then print(hl) end
end
print(hl)
print(fmt(tabf2, "Total Elements", figures("TOTAL_ALL")))
print(hl)
print(fmt(tabf2, "Total Tokens", figures("TOTAL_TOK")))
print(hl)
-- Report warning flags from optimizing process.
if warn.LSTRING then
print("* WARNING: "..warn.LSTRING)
elseif warn.MIXEDEOL then
print("* WARNING: ".."output still contains some CRLF or LFCR line endings")
elseif warn.SRC_EQUIV then
print("* WARNING: "..smsg)
elseif warn.BIN_EQUIV then
print("* WARNING: "..bmsg)
end
print()
end
---------------------------- Main functions ---------------------------
local arg = {...} -- program arguments
set_options(DEFAULT_CONFIG) -- set to default options at beginning
--- Does per-file handling, ship off to tasks.
--
-- @tparam {string,...} fspec List of source files.
local function do_files(fspec)
for i = 1, #fspec do
local srcfl = fspec[i]
local destfl
-- Find and replace extension for filenames.
local extb, exte = find(srcfl, "%.[^%.%\\%/]*$")
local basename, extension = srcfl, ""
if extb and extb > 1 then
basename = sub(srcfl, 1, extb - 1)
extension = sub(srcfl, extb, exte)
end
destfl = basename..suffix..extension
if #fspec == 1 and option.OUTPUT_FILE then
destfl = option.OUTPUT_FILE
end
if srcfl == destfl then
die("output filename identical to input filename")
end
-- Perform requested operations.
if option.DUMP_LEXER then
dump_tokens(srcfl)
elseif option.DUMP_PARSER then
dump_parser(srcfl)
elseif option.READ_ONLY then
read_only(srcfl)
else
process_file(srcfl, destfl)
end
end--for
end
--- The main function.
local function main()
local fspec = {}
local argn, i = #arg, 1
if argn == 0 then
option.HELP = true
end
-- Handle arguments.
while i <= argn do
local o, p = arg[i], arg[i + 1]
local dash = match(o, "^%-%-?")
if dash == "-" then -- single-dash options
if o == "-h" then
option.HELP = true; break
elseif o == "-v" then
option.VERSION = true; break
elseif o == "-s" then
if not p then die("-s option needs suffix specification") end
suffix = p
i = i + 1
elseif o == "-o" then
if not p then die("-o option needs a file name") end
option.OUTPUT_FILE = p
i = i + 1
elseif o == "-" then
break -- ignore rest of args
else
die("unrecognized option "..o)
end
elseif dash == "--" then -- double-dash options
if o == "--help" then
option.HELP = true; break
elseif o == "--version" then
option.VERSION = true; break
elseif o == "--keep" then
if not p then die("--keep option needs a string to match for") end
option.KEEP = p
i = i + 1
elseif o == "--plugin" then
if not p then die("--plugin option needs a module name") end
if option.PLUGIN then die("only one plugin can be specified") end
option.PLUGIN = p
plugin = require(PLUGIN_SUFFIX..p)
i = i + 1
elseif o == "--quiet" then
option.QUIET = true
elseif o == "--read-only" then
option.READ_ONLY = true
elseif o == "--basic" then
set_options(BASIC_CONFIG)
elseif o == "--maximum" then
set_options(MAXIMUM_CONFIG)
elseif o == "--none" then
set_options(NONE_CONFIG)
elseif o == "--dump-lexer" then
option.DUMP_LEXER = true
elseif o == "--dump-parser" then
option.DUMP_PARSER = true
elseif o == "--details" then
option.DETAILS = true
elseif OPTION[o] then -- lookup optimization options
set_options(o)
else
die("unrecognized option "..o)
end
else
fspec[#fspec + 1] = o -- potential filename
end
i = i + 1
end--while
if option.HELP then
print(MSG_TITLE..MSG_USAGE); return true
elseif option.VERSION then
print(MSG_TITLE); return true
end
if option["opt-binequiv"] and not BIN_EQUIV_AVAIL then
die("--opt-binequiv is available only for PUC Lua 5.1!")
end
if #fspec > 0 then
if #fspec > 1 and option.OUTPUT_FILE then
die("with -o, only one source file can be specified")
end
do_files(fspec)
return true
else
die("nothing to do!")
end
end
-- entry point -> main() -> do_files()
if not main() then
die("Please run with option -h or --help for usage information")
end

102
tools/initialDietFlash.sh Executable file
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@ -0,0 +1,102 @@
#!/bin/bash
TOOLDIR=tools/
LUATOOL=${TOOLDIR}luatool.py
#DIET=bin/luasrcdiet --maximum
DIET=bin/luasrcdiet
DEVICE=$1
BAUD=115200
LUASCRIPT_STOP=${TOOLDIR}/stopController.lua
# check environment
if [ ! -f $LUATOOL ]; then
echo "$LUATOOL not found"
echo "is the command prompt at the same level as the tools folder ?"
exit 1
fi
# check the serial connection
if [ ! -c $DEVICE ]; then
echo "Serial target: $DEVICE does not exist"
exit 1
fi
if [ $# -eq 0 ]; then
echo ""
echo "e.g. usage $0 <device> [<files to upoad>]"
exit 1
fi
if [ $# -eq 1 ]; then
FILES="displayword.lua main.lua timecore.lua webpage.html webserver.lua telnet.lua wordclock.lua init.lua"
else
FILES=$2
fi
# Convert files, if necessary
if [ "$FILES" != "config.lua" ]; then
echo "Generate DIET version of the files"
OUTFILES=""
ROOTDIR=$PWD
cd $TOOLDIR
for f in $FILES; do
if [[ "$f" == *.lua ]] && [[ "$f" != init.lua ]]; then
echo "Compress $f ..."
out=$(echo "$f" | sed 's/.lua/_diet.lua/g')
$DIET ../$f -o ../diet/$out
OUTFILES="$OUTFILES diet/$out"
else
OUTFILES="$OUTFILES $f"
fi
done
FILES=$OUTFILES
cd $ROOTDIR
fi
echo "Reboot ESP and stop init timer"
if [ ! -f $LUASCRIPT_STOP ]; then
echo "Cannot find $LUASCRIPT_STOP"
exit 1
fi
python3 $LUATOOL -p $DEVICE -f $LUASCRIPT_STOP -b $BAUD --volatile --delay 2
if [ $? -ne 0 ]; then
echo "Could not reboot"
exit 1
fi
if [ $# -eq 1 ]; then
# Format filesystem first
echo "Format the complete ESP"
python3 $LUATOOL -p $DEVICE -w -b $BAUD
if [ $? -ne 0 ]; then
echo "STOOOOP"
exit 1
fi
fi
echo "Start Flasing ..."
for f in $FILES; do
if [ ! -f $f ]; then
echo "Cannot find $f"
echo "place the terminal into the folder where the lua files are present"
exit 1
fi
espFile=$(echo "$f" | sed 's;diet/;;g')
echo "------------- $espFile ------------"
python3 $LUATOOL -p $DEVICE -f $f -b $BAUD -t $espFile
if [ $? -ne 0 ]; then
echo "STOOOOP"
exit 1
fi
done
if [ $# -eq 1 ]; then
echo "Reboot the ESP"
echo "node.restart()" >> $DEVICE
fi
exit 0

View File

@ -1,50 +0,0 @@
#!/bin/bash
LUATOOL=./tools/luatool.py
DEVICE=$1
# check the serial connection
if [ ! -c $DEVICE ]; then
echo "$DEVICE does not exist"
exit 1
fi
if [ $# -ne 1 ]; then
echo ""
echo "e.g. usage $0 <device>"
exit 1
fi
FILES="displayword.lua main.lua timecore.lua webpage.html webserver.lua wordclock.lua init.lua"
# Format filesystem first
echo "Format the complete ESP"
$LUATOOL -p $DEVICE -w -b 115200
if [ $? -ne 0 ]; then
echo "STOOOOP"
exit 1
fi
echo
echo "Start Flasing ..."
for f in $FILES; do
if [ ! -f $f ]; then
echo "Cannot find $f"
echo "place the terminal into the folder where the lua files are present"
exit 1
fi
echo "------------- $f ------------"
$LUATOOL -p $DEVICE -f $f -b 115200 -t $f
if [ $? -ne 0 ]; then
echo "STOOOOP"
exit 1
fi
done
echo "Reboot the ESP"
$LUATOOL -p $DEVICE -r -b 115200
exit 0

465
tools/luasrcdiet/equiv.lua Normal file
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---------
-- Source and binary equivalency comparisons
--
-- **Notes:**
--
-- * Intended as an extra safety check for mission-critical code,
-- should give affirmative results if everything works.
-- * Heavy on load() and string.dump(), which may be slowish,
-- and may cause problems for cross-compiled applications.
-- * Optional detailed information dump is mainly for debugging,
-- reason being, if the two are not equivalent when they should be,
-- then some form of optimization has failed.
-- * source: IMPORTANT: TK_NAME not compared if opt-locals enabled.
-- * binary: IMPORTANT: Some shortcuts are taken with int and size_t
-- value reading -- if the functions break, then the binary chunk
-- is very large indeed.
-- * binary: There is a lack of diagnostic information when a compare
-- fails; you can use ChunkSpy and compare using visual diff.
----
local byte = string.byte
local dump = string.dump
local load = loadstring or load --luacheck: ignore 113
local sub = string.sub
local M = {}
local is_realtoken = { -- significant (grammar) tokens
TK_KEYWORD = true,
TK_NAME = true,
TK_NUMBER = true,
TK_STRING = true,
TK_LSTRING = true,
TK_OP = true,
TK_EOS = true,
}
local option, llex, warn
--- The initialization function.
--
-- @tparam {[string]=bool,...} _option
-- @tparam luasrcdiet.llex _llex
-- @tparam table _warn
function M.init(_option, _llex, _warn)
option = _option
llex = _llex
warn = _warn
end
--- Builds lists containing a 'normal' lexer stream.
--
-- @tparam string s The source code.
-- @treturn table
-- @treturn table
local function build_stream(s)
local stok, sseminfo = llex.lex(s) -- source list (with whitespace elements)
local tok, seminfo -- processed list (real elements only)
= {}, {}
for i = 1, #stok do
local t = stok[i]
if is_realtoken[t] then
tok[#tok + 1] = t
seminfo[#seminfo + 1] = sseminfo[i]
end
end--for
return tok, seminfo
end
-- Tests source (lexer stream) equivalence.
--
-- @tparam string z
-- @tparam string dat
function M.source(z, dat)
-- Returns a dumped string for seminfo compares.
local function dumpsem(s)
local sf = load("return "..s, "z")
if sf then
return dump(sf)
end
end
-- Marks and optionally reports non-equivalence.
local function bork(msg)
if option.DETAILS then print("SRCEQUIV: "..msg) end
warn.SRC_EQUIV = true
end
-- Get lexer streams for both source strings, compare.
local tok1, seminfo1 = build_stream(z) -- original
local tok2, seminfo2 = build_stream(dat) -- compressed
-- Compare shbang lines ignoring EOL.
local sh1 = z:match("^(#[^\r\n]*)")
local sh2 = dat:match("^(#[^\r\n]*)")
if sh1 or sh2 then
if not sh1 or not sh2 or sh1 ~= sh2 then
bork("shbang lines different")
end
end
-- Compare by simple count.
if #tok1 ~= #tok2 then
bork("count "..#tok1.." "..#tok2)
return
end
-- Compare each element the best we can.
for i = 1, #tok1 do
local t1, t2 = tok1[i], tok2[i]
local s1, s2 = seminfo1[i], seminfo2[i]
if t1 ~= t2 then -- by type
bork("type ["..i.."] "..t1.." "..t2)
break
end
if t1 == "TK_KEYWORD" or t1 == "TK_NAME" or t1 == "TK_OP" then
if t1 == "TK_NAME" and option["opt-locals"] then
-- can't compare identifiers of locals that are optimized
elseif s1 ~= s2 then -- by semantic info (simple)
bork("seminfo ["..i.."] "..t1.." "..s1.." "..s2)
break
end
elseif t1 == "TK_EOS" then
-- no seminfo to compare
else-- "TK_NUMBER" or "TK_STRING" or "TK_LSTRING"
-- compare 'binary' form, so dump a function
local s1b,s2b = dumpsem(s1), dumpsem(s2)
if not s1b or not s2b or s1b ~= s2b then
bork("seminfo ["..i.."] "..t1.." "..s1.." "..s2)
break
end
end
end--for
-- Successful comparison if end is reached with no borks.
end
--- Tests binary chunk equivalence (only for PUC Lua 5.1).
--
-- @tparam string z
-- @tparam string dat
function M.binary(z, dat)
local TNIL = 0 --luacheck: ignore 211
local TBOOLEAN = 1
local TNUMBER = 3
local TSTRING = 4
-- sizes of data types
local endian
local sz_int
local sz_sizet
local sz_inst
local sz_number
local getint
local getsizet
-- Marks and optionally reports non-equivalence.
local function bork(msg)
if option.DETAILS then print("BINEQUIV: "..msg) end
warn.BIN_EQUIV = true
end
-- Checks if bytes exist.
local function ensure(c, sz)
if c.i + sz - 1 > c.len then return end
return true
end
-- Skips some bytes.
local function skip(c, sz)
if not sz then sz = 1 end
c.i = c.i + sz
end
-- Returns a byte value.
local function getbyte(c)
local i = c.i
if i > c.len then return end
local d = sub(c.dat, i, i)
c.i = i + 1
return byte(d)
end
-- Return an int value (little-endian).
local function getint_l(c)
local n, scale = 0, 1
if not ensure(c, sz_int) then return end
for _ = 1, sz_int do
n = n + scale * getbyte(c)
scale = scale * 256
end
return n
end
-- Returns an int value (big-endian).
local function getint_b(c)
local n = 0
if not ensure(c, sz_int) then return end
for _ = 1, sz_int do
n = n * 256 + getbyte(c)
end
return n
end
-- Returns a size_t value (little-endian).
local function getsizet_l(c)
local n, scale = 0, 1
if not ensure(c, sz_sizet) then return end
for _ = 1, sz_sizet do
n = n + scale * getbyte(c)
scale = scale * 256
end
return n
end
-- Returns a size_t value (big-endian).
local function getsizet_b(c)
local n = 0
if not ensure(c, sz_sizet) then return end
for _ = 1, sz_sizet do
n = n * 256 + getbyte(c)
end
return n
end
-- Returns a block (as a string).
local function getblock(c, sz)
local i = c.i
local j = i + sz - 1
if j > c.len then return end
local d = sub(c.dat, i, j)
c.i = i + sz
return d
end
-- Returns a string.
local function getstring(c)
local n = getsizet(c)
if not n then return end
if n == 0 then return "" end
return getblock(c, n)
end
-- Compares byte value.
local function goodbyte(c1, c2)
local b1, b2 = getbyte(c1), getbyte(c2)
if not b1 or not b2 or b1 ~= b2 then
return
end
return b1
end
-- Compares byte value.
local function badbyte(c1, c2)
local b = goodbyte(c1, c2)
if not b then return true end
end
-- Compares int value.
local function goodint(c1, c2)
local i1, i2 = getint(c1), getint(c2)
if not i1 or not i2 or i1 ~= i2 then
return
end
return i1
end
-- Recursively-called function to compare function prototypes.
local function getfunc(c1, c2)
-- source name (ignored)
if not getstring(c1) or not getstring(c2) then
bork("bad source name"); return
end
-- linedefined (ignored)
if not getint(c1) or not getint(c2) then
bork("bad linedefined"); return
end
-- lastlinedefined (ignored)
if not getint(c1) or not getint(c2) then
bork("bad lastlinedefined"); return
end
if not (ensure(c1, 4) and ensure(c2, 4)) then
bork("prototype header broken")
end
-- nups (compared)
if badbyte(c1, c2) then
bork("bad nups"); return
end
-- numparams (compared)
if badbyte(c1, c2) then
bork("bad numparams"); return
end
-- is_vararg (compared)
if badbyte(c1, c2) then
bork("bad is_vararg"); return
end
-- maxstacksize (compared)
if badbyte(c1, c2) then
bork("bad maxstacksize"); return
end
-- code (compared)
local ncode = goodint(c1, c2)
if not ncode then
bork("bad ncode"); return
end
local code1 = getblock(c1, ncode * sz_inst)
local code2 = getblock(c2, ncode * sz_inst)
if not code1 or not code2 or code1 ~= code2 then
bork("bad code block"); return
end
-- constants (compared)
local nconst = goodint(c1, c2)
if not nconst then
bork("bad nconst"); return
end
for _ = 1, nconst do
local ctype = goodbyte(c1, c2)
if not ctype then
bork("bad const type"); return
end
if ctype == TBOOLEAN then
if badbyte(c1, c2) then
bork("bad boolean value"); return
end
elseif ctype == TNUMBER then
local num1 = getblock(c1, sz_number)
local num2 = getblock(c2, sz_number)
if not num1 or not num2 or num1 ~= num2 then
bork("bad number value"); return
end
elseif ctype == TSTRING then
local str1 = getstring(c1)
local str2 = getstring(c2)
if not str1 or not str2 or str1 ~= str2 then
bork("bad string value"); return
end
end
end
-- prototypes (compared recursively)
local nproto = goodint(c1, c2)
if not nproto then
bork("bad nproto"); return
end
for _ = 1, nproto do
if not getfunc(c1, c2) then
bork("bad function prototype"); return
end
end
-- debug information (ignored)
-- lineinfo (ignored)
local sizelineinfo1 = getint(c1)
if not sizelineinfo1 then
bork("bad sizelineinfo1"); return
end
local sizelineinfo2 = getint(c2)
if not sizelineinfo2 then
bork("bad sizelineinfo2"); return
end
if not getblock(c1, sizelineinfo1 * sz_int) then
bork("bad lineinfo1"); return
end
if not getblock(c2, sizelineinfo2 * sz_int) then
bork("bad lineinfo2"); return
end
-- locvars (ignored)
local sizelocvars1 = getint(c1)
if not sizelocvars1 then
bork("bad sizelocvars1"); return
end
local sizelocvars2 = getint(c2)
if not sizelocvars2 then
bork("bad sizelocvars2"); return
end
for _ = 1, sizelocvars1 do
if not getstring(c1) or not getint(c1) or not getint(c1) then
bork("bad locvars1"); return
end
end
for _ = 1, sizelocvars2 do
if not getstring(c2) or not getint(c2) or not getint(c2) then
bork("bad locvars2"); return
end
end
-- upvalues (ignored)
local sizeupvalues1 = getint(c1)
if not sizeupvalues1 then
bork("bad sizeupvalues1"); return
end
local sizeupvalues2 = getint(c2)
if not sizeupvalues2 then
bork("bad sizeupvalues2"); return
end
for _ = 1, sizeupvalues1 do
if not getstring(c1) then bork("bad upvalues1"); return end
end
for _ = 1, sizeupvalues2 do
if not getstring(c2) then bork("bad upvalues2"); return end
end
return true
end
-- Removes shbang line so that load runs.
local function zap_shbang(s)
local shbang = s:match("^(#[^\r\n]*\r?\n?)")
if shbang then -- cut out shbang
s = sub(s, #shbang + 1)
end
return s
end
-- Attempt to compile, then dump to get binary chunk string.
local cz = load(zap_shbang(z), "z")
if not cz then
bork("failed to compile original sources for binary chunk comparison")
return
end
local cdat = load(zap_shbang(dat), "z")
if not cdat then
bork("failed to compile compressed result for binary chunk comparison")
end
-- if load() works, dump assuming string.dump() is error-free
local c1 = { i = 1, dat = dump(cz) }
c1.len = #c1.dat
local c2 = { i = 1, dat = dump(cdat) }
c2.len = #c2.dat
-- Parse binary chunks to verify equivalence.
-- * For headers, handle sizes to allow a degree of flexibility.
-- * Assume a valid binary chunk is generated, since it was not
-- generated via external means.
if not (ensure(c1, 12) and ensure(c2, 12)) then
bork("header broken")
end
skip(c1, 6) -- skip signature(4), version, format
endian = getbyte(c1) -- 1 = little endian
sz_int = getbyte(c1) -- get data type sizes
sz_sizet = getbyte(c1)
sz_inst = getbyte(c1)
sz_number = getbyte(c1)
skip(c1) -- skip integral flag
skip(c2, 12) -- skip other header (assume similar)
if endian == 1 then -- set for endian sensitive data we need
getint = getint_l
getsizet = getsizet_l
else
getint = getint_b
getsizet = getsizet_b
end
getfunc(c1, c2) -- get prototype at root
if c1.i ~= c1.len + 1 then
bork("inconsistent binary chunk1"); return
elseif c2.i ~= c2.len + 1 then
bork("inconsistent binary chunk2"); return
end
-- Successful comparison if end is reached with no borks.
end
return M

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---------
-- Utility functions for operations on a file system.
--
-- **Note: This module is not part of public API!**
----
local fmt = string.format
local open = io.open
local UTF8_BOM = '\239\187\191'
local function normalize_io_error (name, err)
if err:sub(1, #name + 2) == name..': ' then
err = err:sub(#name + 3)
end
return err
end
local M = {}
--- Reads the specified file and returns its content as string.
--
-- @tparam string filename Path of the file to read.
-- @tparam string mode The mode in which to open the file, see @{io.open} (default: "r").
-- @treturn[1] string A content of the file.
-- @treturn[2] nil
-- @treturn[2] string An error message.
function M.read_file (filename, mode)
local handler, err = open(filename, mode or 'r')
if not handler then
return nil, fmt('Could not open %s for reading: %s',
filename, normalize_io_error(filename, err))
end
local content, err = handler:read('*a') --luacheck: ignore 411
if not content then
return nil, fmt('Could not read %s: %s', filename, normalize_io_error(filename, err))
end
handler:close()
if content:sub(1, #UTF8_BOM) == UTF8_BOM then
content = content:sub(#UTF8_BOM + 1)
end
return content
end
--- Writes the given data to the specified file.
--
-- @tparam string filename Path of the file to write.
-- @tparam string data The data to write.
-- @tparam ?string mode The mode in which to open the file, see @{io.open} (default: "w").
-- @treturn[1] true
-- @treturn[2] nil
-- @treturn[2] string An error message.
function M.write_file (filename, data, mode)
local handler, err = open(filename, mode or 'w')
if not handler then
return nil, fmt('Could not open %s for writing: %s',
filename, normalize_io_error(filename, err))
end
local _, err = handler:write(data) --luacheck: ignore 411
if err then
return nil, fmt('Could not write %s: %s', filename, normalize_io_error(filename, err))
end
handler:flush()
handler:close()
return true
end
return M

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---------
-- LuaSrcDiet API
----
local equiv = require 'luasrcdiet.equiv'
local llex = require 'luasrcdiet.llex'
local lparser = require 'luasrcdiet.lparser'
local optlex = require 'luasrcdiet.optlex'
local optparser = require 'luasrcdiet.optparser'
local utils = require 'luasrcdiet.utils'
local concat = table.concat
local merge = utils.merge
local _ -- placeholder
local function noop ()
return
end
local function opts_to_legacy (opts)
local res = {}
for key, val in pairs(opts) do
res['opt-'..key] = val
end
return res
end
local M = {}
--- The module's name.
M._NAME = 'luasrcdiet'
--- The module's version number.
M._VERSION = '1.0.0'
--- The module's homepage.
M._HOMEPAGE = 'https://github.com/jirutka/luasrcdiet'
--- All optimizations disabled.
M.NONE_OPTS = {
binequiv = false,
comments = false,
emptylines = false,
entropy = false,
eols = false,
experimental = false,
locals = false,
numbers = false,
srcequiv = false,
strings = false,
whitespace = false,
}
--- Basic optimizations enabled.
-- @table BASIC_OPTS
M.BASIC_OPTS = merge(M.NONE_OPTS, {
comments = true,
emptylines = true,
srcequiv = true,
whitespace = true,
})
--- Defaults.
-- @table DEFAULT_OPTS
M.DEFAULT_OPTS = merge(M.BASIC_OPTS, {
locals = true,
numbers = true,
})
--- Maximum optimizations enabled (all except experimental).
-- @table MAXIMUM_OPTS
M.MAXIMUM_OPTS = merge(M.DEFAULT_OPTS, {
entropy = true,
eols = true,
strings = true,
})
--- Optimizes the given Lua source code.
--
-- @tparam ?{[string]=bool,...} opts Optimizations to do (default is @{DEFAULT_OPTS}).
-- @tparam string source The Lua source code to optimize.
-- @treturn string Optimized source.
-- @raise if the source is malformed, source equivalence test failed, or some
-- other error occured.
function M.optimize (opts, source)
assert(source and type(source) == 'string',
'bad argument #2: expected string, got a '..type(source))
opts = opts and merge(M.NONE_OPTS, opts) or M.DEFAULT_OPTS
local legacy_opts = opts_to_legacy(opts)
local toklist, seminfolist, toklnlist = llex.lex(source)
local xinfo = lparser.parse(toklist, seminfolist, toklnlist)
optparser.print = noop
optparser.optimize(legacy_opts, toklist, seminfolist, xinfo)
local warn = optlex.warn -- use this as a general warning lookup
optlex.print = noop
_, seminfolist = optlex.optimize(legacy_opts, toklist, seminfolist, toklnlist)
local optim_source = concat(seminfolist)
if opts.srcequiv and not opts.experimental then
equiv.init(legacy_opts, llex, warn)
equiv.source(source, optim_source)
if warn.SRC_EQUIV then
error('Source equivalence test failed!')
end
end
return optim_source
end
return M

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---------
-- Lua 5.1+ lexical analyzer written in Lua.
--
-- This file is part of LuaSrcDiet, based on Yueliang material.
--
-- **Notes:**
--
-- * This is a version of the native 5.1.x lexer from Yueliang 0.4.0,
-- with significant modifications to handle LuaSrcDiet's needs:
-- (1) llex.error is an optional error function handler,
-- (2) seminfo for strings include their delimiters and no
-- translation operations are performed on them.
-- * ADDED shbang handling has been added to support executable scripts.
-- * NO localized decimal point replacement magic.
-- * NO limit to number of lines.
-- * NO support for compatible long strings (LUA\_COMPAT_LSTR).
-- * Added goto keyword and double-colon operator (Lua 5.2+).
----
local find = string.find
local fmt = string.format
local match = string.match
local sub = string.sub
local tonumber = tonumber
local M = {}
local kw = {}
for v in ([[
and break do else elseif end false for function goto if in
local nil not or repeat return then true until while]]):gmatch("%S+") do
kw[v] = true
end
local z, -- source stream
sourceid, -- name of source
I, -- position of lexer
buff, -- buffer for strings
ln, -- line number
tok, -- lexed token list
seminfo, -- lexed semantic information list
tokln -- line numbers for messages
--- Adds information to token listing.
--
-- @tparam string token
-- @tparam string info
local function addtoken(token, info)
local i = #tok + 1
tok[i] = token
seminfo[i] = info
tokln[i] = ln
end
--- Handles line number incrementation and end-of-line characters.
--
-- @tparam int i Position of lexer in the source stream.
-- @tparam bool is_tok
-- @treturn int
local function inclinenumber(i, is_tok)
local old = sub(z, i, i)
i = i + 1 -- skip '\n' or '\r'
local c = sub(z, i, i)
if (c == "\n" or c == "\r") and (c ~= old) then
i = i + 1 -- skip '\n\r' or '\r\n'
old = old..c
end
if is_tok then addtoken("TK_EOL", old) end
ln = ln + 1
I = i
return i
end
--- Returns a chunk name or id, no truncation for long names.
--
-- @treturn string
local function chunkid()
if sourceid and match(sourceid, "^[=@]") then
return sub(sourceid, 2) -- remove first char
end
return "[string]"
end
--- Formats error message and throws error.
--
-- A simplified version, does not report what token was responsible.
--
-- @tparam string s
-- @tparam int line The line number.
-- @raise
local function errorline(s, line)
local e = M.error or error
e(fmt("%s:%d: %s", chunkid(), line or ln, s))
end
--- Counts separators (`="` in a long string delimiter.
--
-- @tparam int i Position of lexer in the source stream.
-- @treturn int
local function skip_sep(i)
local s = sub(z, i, i)
i = i + 1
local count = #match(z, "=*", i)
i = i + count
I = i
return (sub(z, i, i) == s) and count or (-count) - 1
end
--- Reads a long string or long comment.
--
-- @tparam bool is_str
-- @tparam string sep
-- @treturn string
-- @raise if unfinished long string or comment.
local function read_long_string(is_str, sep)
local i = I + 1 -- skip 2nd '['
local c = sub(z, i, i)
if c == "\r" or c == "\n" then -- string starts with a newline?
i = inclinenumber(i) -- skip it
end
while true do
local p, _, r = find(z, "([\r\n%]])", i) -- (long range match)
if not p then
errorline(is_str and "unfinished long string" or
"unfinished long comment")
end
i = p
if r == "]" then -- delimiter test
if skip_sep(i) == sep then
buff = sub(z, buff, I)
I = I + 1 -- skip 2nd ']'
return buff
end
i = I
else -- newline
buff = buff.."\n"
i = inclinenumber(i)
end
end--while
end
--- Reads a string.
--
-- @tparam string del The delimiter.
-- @treturn string
-- @raise if unfinished string or too large escape sequence.
local function read_string(del)
local i = I
while true do
local p, _, r = find(z, "([\n\r\\\"\'])", i) -- (long range match)
if p then
if r == "\n" or r == "\r" then
errorline("unfinished string")
end
i = p
if r == "\\" then -- handle escapes
i = i + 1
r = sub(z, i, i)
if r == "" then break end -- (EOZ error)
p = find("abfnrtv\n\r", r, 1, true)
if p then -- special escapes
if p > 7 then
i = inclinenumber(i)
else
i = i + 1
end
elseif find(r, "%D") then -- other non-digits
i = i + 1
else -- \xxx sequence
local _, q, s = find(z, "^(%d%d?%d?)", i)
i = q + 1
if s + 1 > 256 then -- UCHAR_MAX
errorline("escape sequence too large")
end
end--if p
else
i = i + 1
if r == del then -- ending delimiter
I = i
return sub(z, buff, i - 1) -- return string
end
end--if r
else
break -- (error)
end--if p
end--while
errorline("unfinished string")
end
--- Initializes lexer for given source _z and source name _sourceid.
--
-- @tparam string _z The source code.
-- @tparam string _sourceid Name of the source.
local function init(_z, _sourceid)
z = _z -- source
sourceid = _sourceid -- name of source
I = 1 -- lexer's position in source
ln = 1 -- line number
tok = {} -- lexed token list*
seminfo = {} -- lexed semantic information list*
tokln = {} -- line numbers for messages*
-- Initial processing (shbang handling).
local p, _, q, r = find(z, "^(#[^\r\n]*)(\r?\n?)")
if p then -- skip first line
I = I + #q
addtoken("TK_COMMENT", q)
if #r > 0 then inclinenumber(I, true) end
end
end
--- Runs lexer on the given source code.
--
-- @tparam string source The Lua source to scan.
-- @tparam ?string source_name Name of the source (optional).
-- @treturn {string,...} A list of lexed tokens.
-- @treturn {string,...} A list of semantic information (lexed strings).
-- @treturn {int,...} A list of line numbers.
function M.lex(source, source_name)
init(source, source_name)
while true do--outer
local i = I
-- inner loop allows break to be used to nicely section tests
while true do --luacheck: ignore 512
local p, _, r = find(z, "^([_%a][_%w]*)", i)
if p then
I = i + #r
if kw[r] then
addtoken("TK_KEYWORD", r) -- reserved word (keyword)
else
addtoken("TK_NAME", r) -- identifier
end
break -- (continue)
end
local p, _, r = find(z, "^(%.?)%d", i)
if p then -- numeral
if r == "." then i = i + 1 end
local _, q, r = find(z, "^%d*[%.%d]*([eE]?)", i) --luacheck: ignore 421
i = q + 1
if #r == 1 then -- optional exponent
if match(z, "^[%+%-]", i) then -- optional sign
i = i + 1
end
end
local _, q = find(z, "^[_%w]*", i)
I = q + 1
local v = sub(z, p, q) -- string equivalent
if not tonumber(v) then -- handles hex test also
errorline("malformed number")
end
addtoken("TK_NUMBER", v)
break -- (continue)
end
local p, q, r, t = find(z, "^((%s)[ \t\v\f]*)", i)
if p then
if t == "\n" or t == "\r" then -- newline
inclinenumber(i, true)
else
I = q + 1 -- whitespace
addtoken("TK_SPACE", r)
end
break -- (continue)
end
local _, q = find(z, "^::", i)
if q then
I = q + 1
addtoken("TK_OP", "::")
break -- (continue)
end
local r = match(z, "^%p", i)
if r then
buff = i
local p = find("-[\"\'.=<>~", r, 1, true) --luacheck: ignore 421
if p then
-- two-level if block for punctuation/symbols
if p <= 2 then
if p == 1 then -- minus
local c = match(z, "^%-%-(%[?)", i)
if c then
i = i + 2
local sep = -1
if c == "[" then
sep = skip_sep(i)
end
if sep >= 0 then -- long comment
addtoken("TK_LCOMMENT", read_long_string(false, sep))
else -- short comment
I = find(z, "[\n\r]", i) or (#z + 1)
addtoken("TK_COMMENT", sub(z, buff, I - 1))
end
break -- (continue)
end
-- (fall through for "-")
else -- [ or long string
local sep = skip_sep(i)
if sep >= 0 then
addtoken("TK_LSTRING", read_long_string(true, sep))
elseif sep == -1 then
addtoken("TK_OP", "[")
else
errorline("invalid long string delimiter")
end
break -- (continue)
end
elseif p <= 5 then
if p < 5 then -- strings
I = i + 1
addtoken("TK_STRING", read_string(r))
break -- (continue)
end
r = match(z, "^%.%.?%.?", i) -- .|..|... dots
-- (fall through)
else -- relational
r = match(z, "^%p=?", i)
-- (fall through)
end
end
I = i + #r
addtoken("TK_OP", r) -- for other symbols, fall through
break -- (continue)
end
local r = sub(z, i, i)
if r ~= "" then
I = i + 1
addtoken("TK_OP", r) -- other single-char tokens
break
end
addtoken("TK_EOS", "") -- end of stream,
return tok, seminfo, tokln -- exit here
end--while inner
end--while outer
end
return M

1286
tools/luasrcdiet/lparser.lua Normal file

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852
tools/luasrcdiet/optlex.lua Normal file
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---------
-- This module does lexer-based optimizations.
--
-- **Notes:**
--
-- * TODO: General string delimiter conversion optimizer.
-- * TODO: (numbers) warn if overly significant digit.
----
local char = string.char
local find = string.find
local match = string.match
local rep = string.rep
local sub = string.sub
local tonumber = tonumber
local tostring = tostring
local print -- set in optimize()
local M = {}
-- error function, can override by setting own function into module
M.error = error
M.warn = {} -- table for warning flags
local stoks, sinfos, stoklns -- source lists
local is_realtoken = { -- significant (grammar) tokens
TK_KEYWORD = true,
TK_NAME = true,
TK_NUMBER = true,
TK_STRING = true,
TK_LSTRING = true,
TK_OP = true,
TK_EOS = true,
}
local is_faketoken = { -- whitespace (non-grammar) tokens
TK_COMMENT = true,
TK_LCOMMENT = true,
TK_EOL = true,
TK_SPACE = true,
}
local opt_details -- for extra information
--- Returns true if current token is at the start of a line.
--
-- It skips over deleted tokens via recursion.
--
-- @tparam int i
-- @treturn bool
local function atlinestart(i)
local tok = stoks[i - 1]
if i <= 1 or tok == "TK_EOL" then
return true
elseif tok == "" then
return atlinestart(i - 1)
end
return false
end
--- Returns true if current token is at the end of a line.
--
-- It skips over deleted tokens via recursion.
--
-- @tparam int i
-- @treturn bool
local function atlineend(i)
local tok = stoks[i + 1]
if i >= #stoks or tok == "TK_EOL" or tok == "TK_EOS" then
return true
elseif tok == "" then
return atlineend(i + 1)
end
return false
end
--- Counts comment EOLs inside a long comment.
--
-- In order to keep line numbering, EOLs need to be reinserted.
--
-- @tparam string lcomment
-- @treturn int
local function commenteols(lcomment)
local sep = #match(lcomment, "^%-%-%[=*%[")
local z = sub(lcomment, sep + 1, -(sep - 1)) -- remove delims
local i, c = 1, 0
while true do
local p, _, r, s = find(z, "([\r\n])([\r\n]?)", i)
if not p then break end -- if no matches, done
i = p + 1
c = c + 1
if #s > 0 and r ~= s then -- skip CRLF or LFCR
i = i + 1
end
end
return c
end
--- Compares two tokens (i, j) and returns the whitespace required.
--
-- See documentation for a reference table of interactions.
--
-- Only two grammar/real tokens are being considered:
--
-- * if `""`, no separation is needed,
-- * if `" "`, then at least one whitespace (or EOL) is required.
--
-- Note: This doesn't work at the start or the end or for EOS!
--
-- @tparam int i
-- @tparam int j
-- @treturn string
local function checkpair(i, j)
local t1, t2 = stoks[i], stoks[j]
if t1 == "TK_STRING" or t1 == "TK_LSTRING" or
t2 == "TK_STRING" or t2 == "TK_LSTRING" then
return ""
elseif t1 == "TK_OP" or t2 == "TK_OP" then
if (t1 == "TK_OP" and (t2 == "TK_KEYWORD" or t2 == "TK_NAME")) or
(t2 == "TK_OP" and (t1 == "TK_KEYWORD" or t1 == "TK_NAME")) then
return ""
end
if t1 == "TK_OP" and t2 == "TK_OP" then
-- for TK_OP/TK_OP pairs, see notes in technotes.txt
local op, op2 = sinfos[i], sinfos[j]
if (match(op, "^%.%.?$") and match(op2, "^%.")) or
(match(op, "^[~=<>]$") and op2 == "=") or
(op == "[" and (op2 == "[" or op2 == "=")) then
return " "
end
return ""
end
-- "TK_OP" + "TK_NUMBER" case
local op = sinfos[i]
if t2 == "TK_OP" then op = sinfos[j] end
if match(op, "^%.%.?%.?$") then
return " "
end
return ""
else-- "TK_KEYWORD" | "TK_NAME" | "TK_NUMBER" then
return " "
end
end
--- Repack tokens, removing deletions caused by optimization process.
local function repack_tokens()
local dtoks, dinfos, dtoklns = {}, {}, {}
local j = 1
for i = 1, #stoks do
local tok = stoks[i]
if tok ~= "" then
dtoks[j], dinfos[j], dtoklns[j] = tok, sinfos[i], stoklns[i]
j = j + 1
end
end
stoks, sinfos, stoklns = dtoks, dinfos, dtoklns
end
--- Does number optimization.
--
-- Optimization using string formatting functions is one way of doing this,
-- but here, we consider all cases and handle them separately (possibly an
-- idiotic approach...).
--
-- Scientific notation being generated is not in canonical form, this may or
-- may not be a bad thing.
--
-- Note: Intermediate portions need to fit into a normal number range.
--
-- Optimizations can be divided based on number patterns:
--
-- * hexadecimal:
-- (1) no need to remove leading zeros, just skip to (2)
-- (2) convert to integer if size equal or smaller
-- * change if equal size -> lose the 'x' to reduce entropy
-- (3) number is then processed as an integer
-- (4) note: does not make 0[xX] consistent
-- * integer:
-- (1) reduce useless fractional part, if present, e.g. 123.000 -> 123.
-- (2) remove leading zeros, e.g. 000123
-- * float:
-- (1) split into digits dot digits
-- (2) if no integer portion, take as zero (can omit later)
-- (3) handle degenerate .000 case, after which the fractional part
-- must be non-zero (if zero, it's matched as float .0)
-- (4) remove trailing zeros for fractional portion
-- (5) p.q where p > 0 and q > 0 cannot be shortened any more
-- (6) otherwise p == 0 and the form is .q, e.g. .000123
-- (7) if scientific shorter, convert, e.g. .000123 -> 123e-6
-- * scientific:
-- (1) split into (digits dot digits) [eE] ([+-] digits)
-- (2) if significand is zero, just use .0
-- (3) remove leading zeros for significand
-- (4) shift out trailing zeros for significand
-- (5) examine exponent and determine which format is best:
-- number with fraction, or scientific
--
-- Note: Number with fraction and scientific number is never converted
-- to integer, because Lua 5.3 distinguishes between integers and floats.
--
--
-- @tparam int i
local function do_number(i)
local before = sinfos[i] -- 'before'
local z = before -- working representation
local y -- 'after', if better
--------------------------------------------------------------------
if match(z, "^0[xX]") then -- hexadecimal number
local v = tostring(tonumber(z))
if #v <= #z then
z = v -- change to integer, AND continue
else
return -- no change; stick to hex
end
end
if match(z, "^%d+$") then -- integer
if tonumber(z) > 0 then
y = match(z, "^0*([1-9]%d*)$") -- remove leading zeros
else
y = "0" -- basic zero
end
elseif not match(z, "[eE]") then -- float
local p, q = match(z, "^(%d*)%.(%d*)$") -- split
if p == "" then p = 0 end -- int part zero
if q == "" then q = "0" end -- fraction part zero
if tonumber(q) == 0 and p == 0 then
y = ".0" -- degenerate .000 to .0
else
-- now, q > 0 holds and p is a number
local zeros_cnt = #match(q, "0*$") -- remove trailing zeros
if zeros_cnt > 0 then
q = sub(q, 1, #q - zeros_cnt)
end
-- if p > 0, nothing else we can do to simplify p.q case
if tonumber(p) > 0 then
y = p.."."..q
else
y = "."..q -- tentative, e.g. .000123
local v = #match(q, "^0*") -- # leading spaces
local w = #q - v -- # significant digits
local nv = tostring(#q)
-- e.g. compare 123e-6 versus .000123
if w + 2 + #nv < 1 + #q then
y = sub(q, -w).."e-"..nv
end
end
end
else -- scientific number
local sig, ex = match(z, "^([^eE]+)[eE]([%+%-]?%d+)$")
ex = tonumber(ex)
-- if got ".", shift out fractional portion of significand
local p, q = match(sig, "^(%d*)%.(%d*)$")
if p then
ex = ex - #q
sig = p..q
end
if tonumber(sig) == 0 then
y = ".0" -- basic float zero
else
local v = #match(sig, "^0*") -- remove leading zeros
sig = sub(sig, v + 1)
v = #match(sig, "0*$") -- shift out trailing zeros
if v > 0 then
sig = sub(sig, 1, #sig - v)
ex = ex + v
end
-- examine exponent and determine which format is best
local nex = tostring(ex)
if ex >= 0 and (ex <= 1 + #nex) then -- a float
y = sig..rep("0", ex).."."
elseif ex < 0 and (ex >= -#sig) then -- fraction, e.g. .123
v = #sig + ex
y = sub(sig, 1, v).."."..sub(sig, v + 1)
elseif ex < 0 and (#nex >= -ex - #sig) then
-- e.g. compare 1234e-5 versus .01234
-- gives: #sig + 1 + #nex >= 1 + (-ex - #sig) + #sig
-- -> #nex >= -ex - #sig
v = -ex - #sig
y = "."..rep("0", v)..sig
else -- non-canonical scientific representation
y = sig.."e"..ex
end
end--if sig
end
if y and y ~= sinfos[i] then
if opt_details then
print("<number> (line "..stoklns[i]..") "..sinfos[i].." -> "..y)
opt_details = opt_details + 1
end
sinfos[i] = y
end
end
--- Does string optimization.
--
-- Note: It works on well-formed strings only!
--
-- Optimizations on characters can be summarized as follows:
--
-- \a\b\f\n\r\t\v -- no change
-- \\ -- no change
-- \"\' -- depends on delim, other can remove \
-- \[\] -- remove \
-- \<char> -- general escape, remove \ (Lua 5.1 only)
-- \<eol> -- normalize the EOL only
-- \ddd -- if \a\b\f\n\r\t\v, change to latter
-- if other < ascii 32, keep ddd but zap leading zeros
-- but cannot have following digits
-- if >= ascii 32, translate it into the literal, then also
-- do escapes for \\,\",\' cases
-- <other> -- no change
--
-- Switch delimiters if string becomes shorter.
--
-- @tparam int I
local function do_string(I)
local info = sinfos[I]
local delim = sub(info, 1, 1) -- delimiter used
local ndelim = (delim == "'") and '"' or "'" -- opposite " <-> '
local z = sub(info, 2, -2) -- actual string
local i = 1
local c_delim, c_ndelim = 0, 0 -- "/' counts
while i <= #z do
local c = sub(z, i, i)
if c == "\\" then -- escaped stuff
local j = i + 1
local d = sub(z, j, j)
local p = find("abfnrtv\\\n\r\"\'0123456789", d, 1, true)
if not p then -- \<char> -- remove \ (Lua 5.1 only)
z = sub(z, 1, i - 1)..sub(z, j)
i = i + 1
elseif p <= 8 then -- \a\b\f\n\r\t\v\\
i = i + 2 -- no change
elseif p <= 10 then -- \<eol> -- normalize EOL
local eol = sub(z, j, j + 1)
if eol == "\r\n" or eol == "\n\r" then
z = sub(z, 1, i).."\n"..sub(z, j + 2)
elseif p == 10 then -- \r case
z = sub(z, 1, i).."\n"..sub(z, j + 1)
end
i = i + 2
elseif p <= 12 then -- \"\' -- remove \ for ndelim
if d == delim then
c_delim = c_delim + 1
i = i + 2
else
c_ndelim = c_ndelim + 1
z = sub(z, 1, i - 1)..sub(z, j)
i = i + 1
end
else -- \ddd -- various steps
local s = match(z, "^(%d%d?%d?)", j)
j = i + 1 + #s -- skip to location
local cv = tonumber(s)
local cc = char(cv)
p = find("\a\b\f\n\r\t\v", cc, 1, true)
if p then -- special escapes
s = "\\"..sub("abfnrtv", p, p)
elseif cv < 32 then -- normalized \ddd
if match(sub(z, j, j), "%d") then
-- if a digit follows, \ddd cannot be shortened
s = "\\"..s
else
s = "\\"..cv
end
elseif cc == delim then -- \<delim>
s = "\\"..cc
c_delim = c_delim + 1
elseif cc == "\\" then -- \\
s = "\\\\"
else -- literal character
s = cc
if cc == ndelim then
c_ndelim = c_ndelim + 1
end
end
z = sub(z, 1, i - 1)..s..sub(z, j)
i = i + #s
end--if p
else-- c ~= "\\" -- <other> -- no change
i = i + 1
if c == ndelim then -- count ndelim, for switching delimiters
c_ndelim = c_ndelim + 1
end
end--if c
end--while
-- Switching delimiters, a long-winded derivation:
-- (1) delim takes 2+2*c_delim bytes, ndelim takes c_ndelim bytes
-- (2) delim becomes c_delim bytes, ndelim becomes 2+2*c_ndelim bytes
-- simplifying the condition (1)>(2) --> c_delim > c_ndelim
if c_delim > c_ndelim then
i = 1
while i <= #z do
local p, _, r = find(z, "([\'\"])", i)
if not p then break end
if r == delim then -- \<delim> -> <delim>
z = sub(z, 1, p - 2)..sub(z, p)
i = p
else-- r == ndelim -- <ndelim> -> \<ndelim>
z = sub(z, 1, p - 1).."\\"..sub(z, p)
i = p + 2
end
end--while
delim = ndelim -- actually change delimiters
end
z = delim..z..delim
if z ~= sinfos[I] then
if opt_details then
print("<string> (line "..stoklns[I]..") "..sinfos[I].." -> "..z)
opt_details = opt_details + 1
end
sinfos[I] = z
end
end
--- Does long string optimization.
--
-- * remove first optional newline
-- * normalize embedded newlines
-- * reduce '=' separators in delimiters if possible
--
-- Note: warning flagged if trailing whitespace found, not trimmed.
--
-- @tparam int I
local function do_lstring(I)
local info = sinfos[I]
local delim1 = match(info, "^%[=*%[") -- cut out delimiters
local sep = #delim1
local delim2 = sub(info, -sep, -1)
local z = sub(info, sep + 1, -(sep + 1)) -- lstring without delims
local y = ""
local i = 1
while true do
local p, _, r, s = find(z, "([\r\n])([\r\n]?)", i)
-- deal with a single line
local ln
if not p then
ln = sub(z, i)
elseif p >= i then
ln = sub(z, i, p - 1)
end
if ln ~= "" then
-- flag a warning if there are trailing spaces, won't optimize!
if match(ln, "%s+$") then
M.warn.LSTRING = "trailing whitespace in long string near line "..stoklns[I]
end
y = y..ln
end
if not p then -- done if no more EOLs
break
end
-- deal with line endings, normalize them
i = p + 1
if p then
if #s > 0 and r ~= s then -- skip CRLF or LFCR
i = i + 1
end
-- skip first newline, which can be safely deleted
if not(i == 1 and i == p) then
y = y.."\n"
end
end
end--while
-- handle possible deletion of one or more '=' separators
if sep >= 3 then
local chk, okay = sep - 1
-- loop to test ending delimiter with less of '=' down to zero
while chk >= 2 do
local delim = "%]"..rep("=", chk - 2).."%]"
if not match(y.."]", delim) then okay = chk end
chk = chk - 1
end
if okay then -- change delimiters
sep = rep("=", okay - 2)
delim1, delim2 = "["..sep.."[", "]"..sep.."]"
end
end
sinfos[I] = delim1..y..delim2
end
--- Does long comment optimization.
--
-- * trim trailing whitespace
-- * normalize embedded newlines
-- * reduce '=' separators in delimiters if possible
--
-- Note: It does not remove first optional newline.
--
-- @tparam int I
local function do_lcomment(I)
local info = sinfos[I]
local delim1 = match(info, "^%-%-%[=*%[") -- cut out delimiters
local sep = #delim1
local delim2 = sub(info, -(sep - 2), -1)
local z = sub(info, sep + 1, -(sep - 1)) -- comment without delims
local y = ""
local i = 1
while true do
local p, _, r, s = find(z, "([\r\n])([\r\n]?)", i)
-- deal with a single line, extract and check trailing whitespace
local ln
if not p then
ln = sub(z, i)
elseif p >= i then
ln = sub(z, i, p - 1)
end
if ln ~= "" then
-- trim trailing whitespace if non-empty line
local ws = match(ln, "%s*$")
if #ws > 0 then ln = sub(ln, 1, -(ws + 1)) end
y = y..ln
end
if not p then -- done if no more EOLs
break
end
-- deal with line endings, normalize them
i = p + 1
if p then
if #s > 0 and r ~= s then -- skip CRLF or LFCR
i = i + 1
end
y = y.."\n"
end
end--while
-- handle possible deletion of one or more '=' separators
sep = sep - 2
if sep >= 3 then
local chk, okay = sep - 1
-- loop to test ending delimiter with less of '=' down to zero
while chk >= 2 do
local delim = "%]"..rep("=", chk - 2).."%]"
if not match(y, delim) then okay = chk end
chk = chk - 1
end
if okay then -- change delimiters
sep = rep("=", okay - 2)
delim1, delim2 = "--["..sep.."[", "]"..sep.."]"
end
end
sinfos[I] = delim1..y..delim2
end
--- Does short comment optimization.
--
-- * trim trailing whitespace
--
-- @tparam int i
local function do_comment(i)
local info = sinfos[i]
local ws = match(info, "%s*$") -- just look from end of string
if #ws > 0 then
info = sub(info, 1, -(ws + 1)) -- trim trailing whitespace
end
sinfos[i] = info
end
--- Returns true if string found in long comment.
--
-- This is a feature to keep copyright or license texts.
--
-- @tparam bool opt_keep
-- @tparam string info
-- @treturn bool
local function keep_lcomment(opt_keep, info)
if not opt_keep then return false end -- option not set
local delim1 = match(info, "^%-%-%[=*%[") -- cut out delimiters
local sep = #delim1
local z = sub(info, sep + 1, -(sep - 1)) -- comment without delims
if find(z, opt_keep, 1, true) then -- try to match
return true
end
end
--- The main entry point.
--
-- * currently, lexer processing has 2 passes
-- * processing is done on a line-oriented basis, which is easier to
-- grok due to the next point...
-- * since there are various options that can be enabled or disabled,
-- processing is a little messy or convoluted
--
-- @tparam {[string]=bool,...} option
-- @tparam {string,...} toklist
-- @tparam {string,...} semlist
-- @tparam {int,...} toklnlist
-- @treturn {string,...} toklist
-- @treturn {string,...} semlist
-- @treturn {int,...} toklnlist
function M.optimize(option, toklist, semlist, toklnlist)
-- Set option flags.
local opt_comments = option["opt-comments"]
local opt_whitespace = option["opt-whitespace"]
local opt_emptylines = option["opt-emptylines"]
local opt_eols = option["opt-eols"]
local opt_strings = option["opt-strings"]
local opt_numbers = option["opt-numbers"]
local opt_x = option["opt-experimental"]
local opt_keep = option.KEEP
opt_details = option.DETAILS and 0 -- upvalues for details display
print = M.print or _G.print
if opt_eols then -- forced settings, otherwise won't work properly
opt_comments = true
opt_whitespace = true
opt_emptylines = true
elseif opt_x then
opt_whitespace = true
end
-- Variable initialization.
stoks, sinfos, stoklns -- set source lists
= toklist, semlist, toklnlist
local i = 1 -- token position
local tok, info -- current token
local prev -- position of last grammar token
-- on same line (for TK_SPACE stuff)
-- Changes a token, info pair.
local function settoken(tok, info, I) --luacheck: ignore 431
I = I or i
stoks[I] = tok or ""
sinfos[I] = info or ""
end
-- Experimental optimization for ';' operator.
if opt_x then
while true do
tok, info = stoks[i], sinfos[i]
if tok == "TK_EOS" then -- end of stream/pass
break
elseif tok == "TK_OP" and info == ";" then
-- ';' operator found, since it is entirely optional, set it
-- as a space to let whitespace optimization do the rest
settoken("TK_SPACE", " ")
end
i = i + 1
end
repack_tokens()
end
-- Processing loop (PASS 1)
i = 1
while true do
tok, info = stoks[i], sinfos[i]
local atstart = atlinestart(i) -- set line begin flag
if atstart then prev = nil end
if tok == "TK_EOS" then -- end of stream/pass
break
elseif tok == "TK_KEYWORD" or -- keywords, identifiers,
tok == "TK_NAME" or -- operators
tok == "TK_OP" then
-- TK_KEYWORD and TK_OP can't be optimized without a big
-- optimization framework; it would be more of an optimizing
-- compiler, not a source code compressor
-- TK_NAME that are locals needs parser to analyze/optimize
prev = i
elseif tok == "TK_NUMBER" then -- numbers
if opt_numbers then
do_number(i) -- optimize
end
prev = i
elseif tok == "TK_STRING" or -- strings, long strings
tok == "TK_LSTRING" then
if opt_strings then
if tok == "TK_STRING" then
do_string(i) -- optimize
else
do_lstring(i) -- optimize
end
end
prev = i
elseif tok == "TK_COMMENT" then -- short comments
if opt_comments then
if i == 1 and sub(info, 1, 1) == "#" then
-- keep shbang comment, trim whitespace
do_comment(i)
else
-- safe to delete, as a TK_EOL (or TK_EOS) always follows
settoken() -- remove entirely
end
elseif opt_whitespace then -- trim whitespace only
do_comment(i)
end
elseif tok == "TK_LCOMMENT" then -- long comments
if keep_lcomment(opt_keep, info) then
-- if --keep, we keep a long comment if <msg> is found;
-- this is a feature to keep copyright or license texts
if opt_whitespace then -- trim whitespace only
do_lcomment(i)
end
prev = i
elseif opt_comments then
local eols = commenteols(info)
-- prepare opt_emptylines case first, if a disposable token
-- follows, current one is safe to dump, else keep a space;
-- it is implied that the operation is safe for '-', because
-- current is a TK_LCOMMENT, and must be separate from a '-'
if is_faketoken[stoks[i + 1]] then
settoken() -- remove entirely
tok = ""
else
settoken("TK_SPACE", " ")
end
-- if there are embedded EOLs to keep and opt_emptylines is
-- disabled, then switch the token into one or more EOLs
if not opt_emptylines and eols > 0 then
settoken("TK_EOL", rep("\n", eols))
end
-- if optimizing whitespaces, force reinterpretation of the
-- token to give a chance for the space to be optimized away
if opt_whitespace and tok ~= "" then
i = i - 1 -- to reinterpret
end
else -- disabled case
if opt_whitespace then -- trim whitespace only
do_lcomment(i)
end
prev = i
end
elseif tok == "TK_EOL" then -- line endings
if atstart and opt_emptylines then
settoken() -- remove entirely
elseif info == "\r\n" or info == "\n\r" then
-- normalize the rest of the EOLs for CRLF/LFCR only
-- (note that TK_LCOMMENT can change into several EOLs)
settoken("TK_EOL", "\n")
end
elseif tok == "TK_SPACE" then -- whitespace
if opt_whitespace then
if atstart or atlineend(i) then
-- delete leading and trailing whitespace
settoken() -- remove entirely
else
-- at this point, since leading whitespace have been removed,
-- there should be a either a real token or a TK_LCOMMENT
-- prior to hitting this whitespace; the TK_LCOMMENT case
-- only happens if opt_comments is disabled; so prev ~= nil
local ptok = stoks[prev]
if ptok == "TK_LCOMMENT" then
-- previous TK_LCOMMENT can abut with anything
settoken() -- remove entirely
else
-- prev must be a grammar token; consecutive TK_SPACE
-- tokens is impossible when optimizing whitespace
local ntok = stoks[i + 1]
if is_faketoken[ntok] then
-- handle special case where a '-' cannot abut with
-- either a short comment or a long comment
if (ntok == "TK_COMMENT" or ntok == "TK_LCOMMENT") and
ptok == "TK_OP" and sinfos[prev] == "-" then
-- keep token
else
settoken() -- remove entirely
end
else--is_realtoken
-- check a pair of grammar tokens, if can abut, then
-- delete space token entirely, otherwise keep one space
local s = checkpair(prev, i + 1)
if s == "" then
settoken() -- remove entirely
else
settoken("TK_SPACE", " ")
end
end
end
end
end
else
error("unidentified token encountered")
end
i = i + 1
end--while
repack_tokens()
-- Processing loop (PASS 2)
if opt_eols then
i = 1
-- Aggressive EOL removal only works with most non-grammar tokens
-- optimized away because it is a rather simple scheme -- basically
-- it just checks 'real' token pairs around EOLs.
if stoks[1] == "TK_COMMENT" then
-- first comment still existing must be shbang, skip whole line
i = 3
end
while true do
tok = stoks[i]
if tok == "TK_EOS" then -- end of stream/pass
break
elseif tok == "TK_EOL" then -- consider each TK_EOL
local t1, t2 = stoks[i - 1], stoks[i + 1]
if is_realtoken[t1] and is_realtoken[t2] then -- sanity check
local s = checkpair(i - 1, i + 1)
if s == "" or t2 == "TK_EOS" then
settoken() -- remove entirely
end
end
end--if tok
i = i + 1
end--while
repack_tokens()
end
if opt_details and opt_details > 0 then print() end -- spacing
return stoks, sinfos, stoklns
end
return M

View File

@ -0,0 +1,644 @@
---------
-- This module does parser-based optimizations.
--
-- **Notes:**
--
-- * The processing load is quite significant, but since this is an
-- off-line text processor, I believe we can wait a few seconds.
-- * TODO: Might process "local a,a,a" wrongly... need tests!
-- * TODO: Remove position handling if overlapped locals (rem < 0)
-- needs more study, to check behaviour.
-- * TODO: There are probably better ways to do allocation, e.g. by
-- choosing better methods to sort and pick locals...
-- * TODO: We don't need 53*63 two-letter identifiers; we can make
-- do with significantly less depending on how many that are really
-- needed and improve entropy; e.g. 13 needed -> choose 4*4 instead.
----
local byte = string.byte
local char = string.char
local concat = table.concat
local fmt = string.format
local pairs = pairs
local rep = string.rep
local sort = table.sort
local sub = string.sub
local M = {}
-- Letter frequencies for reducing symbol entropy (fixed version)
-- * Might help a wee bit when the output file is compressed
-- * See Wikipedia: http://en.wikipedia.org/wiki/Letter_frequencies
-- * We use letter frequencies according to a Linotype keyboard, plus
-- the underscore, and both lower case and upper case letters.
-- * The arrangement below (LC, underscore, %d, UC) is arbitrary.
-- * This is certainly not optimal, but is quick-and-dirty and the
-- process has no significant overhead
local LETTERS = "etaoinshrdlucmfwypvbgkqjxz_ETAOINSHRDLUCMFWYPVBGKQJXZ"
local ALPHANUM = "etaoinshrdlucmfwypvbgkqjxz_0123456789ETAOINSHRDLUCMFWYPVBGKQJXZ"
-- Names or identifiers that must be skipped.
-- (The first two lines are for keywords.)
local SKIP_NAME = {}
for v in ([[
and break do else elseif end false for function if in
local nil not or repeat return then true until while
self _ENV]]):gmatch("%S+") do
SKIP_NAME[v] = true
end
local toklist, seminfolist, -- token lists (lexer output)
tokpar, seminfopar, xrefpar, -- token lists (parser output)
globalinfo, localinfo, -- variable information tables
statinfo, -- statment type table
globaluniq, localuniq, -- unique name tables
var_new, -- index of new variable names
varlist -- list of output variables
--- Preprocesses information table to get lists of unique names.
--
-- @tparam {table,...} infotable
-- @treturn table
local function preprocess(infotable)
local uniqtable = {}
for i = 1, #infotable do -- enumerate info table
local obj = infotable[i]
local name = obj.name
if not uniqtable[name] then -- not found, start an entry
uniqtable[name] = {
decl = 0, token = 0, size = 0,
}
end
local uniq = uniqtable[name] -- count declarations, tokens, size
uniq.decl = uniq.decl + 1
local xref = obj.xref
local xcount = #xref
uniq.token = uniq.token + xcount
uniq.size = uniq.size + xcount * #name
if obj.decl then -- if local table, create first,last pairs
obj.id = i
obj.xcount = xcount
if xcount > 1 then -- if ==1, means local never accessed
obj.first = xref[2]
obj.last = xref[xcount]
end
else -- if global table, add a back ref
uniq.id = i
end
end--for
return uniqtable
end
--- Calculates actual symbol frequencies, in order to reduce entropy.
--
-- * This may help further reduce the size of compressed sources.
-- * Note that since parsing optimizations is put before lexing
-- optimizations, the frequency table is not exact!
-- * Yes, this will miss --keep block comments too...
--
-- @tparam table option
local function recalc_for_entropy(option)
-- table of token classes to accept in calculating symbol frequency
local ACCEPT = {
TK_KEYWORD = true, TK_NAME = true, TK_NUMBER = true,
TK_STRING = true, TK_LSTRING = true,
}
if not option["opt-comments"] then
ACCEPT.TK_COMMENT = true
ACCEPT.TK_LCOMMENT = true
end
-- Create a new table and remove any original locals by filtering.
local filtered = {}
for i = 1, #toklist do
filtered[i] = seminfolist[i]
end
for i = 1, #localinfo do -- enumerate local info table
local obj = localinfo[i]
local xref = obj.xref
for j = 1, obj.xcount do
local p = xref[j]
filtered[p] = "" -- remove locals
end
end
local freq = {} -- reset symbol frequency table
for i = 0, 255 do freq[i] = 0 end
for i = 1, #toklist do -- gather symbol frequency
local tok, info = toklist[i], filtered[i]
if ACCEPT[tok] then
for j = 1, #info do
local c = byte(info, j)
freq[c] = freq[c] + 1
end
end--if
end--for
-- Re-sorts symbols according to actual frequencies.
--
-- @tparam string symbols
-- @treturn string
local function resort(symbols)
local symlist = {}
for i = 1, #symbols do -- prepare table to sort
local c = byte(symbols, i)
symlist[i] = { c = c, freq = freq[c], }
end
sort(symlist, function(v1, v2) -- sort selected symbols
return v1.freq > v2.freq
end)
local charlist = {} -- reconstitute the string
for i = 1, #symlist do
charlist[i] = char(symlist[i].c)
end
return concat(charlist)
end
LETTERS = resort(LETTERS) -- change letter arrangement
ALPHANUM = resort(ALPHANUM)
end
--- Returns a string containing a new local variable name to use, and
-- a flag indicating whether it collides with a global variable.
--
-- Trapping keywords and other names like 'self' is done elsewhere.
--
-- @treturn string A new local variable name.
-- @treturn bool Whether the name collides with a global variable.
local function new_var_name()
local var
local cletters, calphanum = #LETTERS, #ALPHANUM
local v = var_new
if v < cletters then -- single char
v = v + 1
var = sub(LETTERS, v, v)
else -- longer names
local range, sz = cletters, 1 -- calculate # chars fit
repeat
v = v - range
range = range * calphanum
sz = sz + 1
until range > v
local n = v % cletters -- left side cycles faster
v = (v - n) / cletters -- do first char first
n = n + 1
var = sub(LETTERS, n, n)
while sz > 1 do
local m = v % calphanum
v = (v - m) / calphanum
m = m + 1
var = var..sub(ALPHANUM, m, m)
sz = sz - 1
end
end
var_new = var_new + 1
return var, globaluniq[var] ~= nil
end
--- Calculates and prints some statistics.
--
-- Note: probably better in main source, put here for now.
--
-- @tparam table globaluniq
-- @tparam table localuniq
-- @tparam table afteruniq
-- @tparam table option
local function stats_summary(globaluniq, localuniq, afteruniq, option) --luacheck: ignore 431
local print = M.print or print
local opt_details = option.DETAILS
if option.QUIET then return end
local uniq_g , uniq_li, uniq_lo = 0, 0, 0
local decl_g, decl_li, decl_lo = 0, 0, 0
local token_g, token_li, token_lo = 0, 0, 0
local size_g, size_li, size_lo = 0, 0, 0
local function avg(c, l) -- safe average function
if c == 0 then return 0 end
return l / c
end
-- Collect statistics (Note: globals do not have declarations!)
for _, uniq in pairs(globaluniq) do
uniq_g = uniq_g + 1
token_g = token_g + uniq.token
size_g = size_g + uniq.size
end
for _, uniq in pairs(localuniq) do
uniq_li = uniq_li + 1
decl_li = decl_li + uniq.decl
token_li = token_li + uniq.token
size_li = size_li + uniq.size
end
for _, uniq in pairs(afteruniq) do
uniq_lo = uniq_lo + 1
decl_lo = decl_lo + uniq.decl
token_lo = token_lo + uniq.token
size_lo = size_lo + uniq.size
end
local uniq_ti = uniq_g + uniq_li
local decl_ti = decl_g + decl_li
local token_ti = token_g + token_li
local size_ti = size_g + size_li
local uniq_to = uniq_g + uniq_lo
local decl_to = decl_g + decl_lo
local token_to = token_g + token_lo
local size_to = size_g + size_lo
-- Detailed stats: global list
if opt_details then
local sorted = {} -- sort table of unique global names by size
for name, uniq in pairs(globaluniq) do
uniq.name = name
sorted[#sorted + 1] = uniq
end
sort(sorted, function(v1, v2)
return v1.size > v2.size
end)
do
local tabf1, tabf2 = "%8s%8s%10s %s", "%8d%8d%10.2f %s"
local hl = rep("-", 44)
print("*** global variable list (sorted by size) ***\n"..hl)
print(fmt(tabf1, "Token", "Input", "Input", "Global"))
print(fmt(tabf1, "Count", "Bytes", "Average", "Name"))
print(hl)
for i = 1, #sorted do
local uniq = sorted[i]
print(fmt(tabf2, uniq.token, uniq.size, avg(uniq.token, uniq.size), uniq.name))
end
print(hl)
print(fmt(tabf2, token_g, size_g, avg(token_g, size_g), "TOTAL"))
print(hl.."\n")
end
-- Detailed stats: local list
do
local tabf1, tabf2 = "%8s%8s%8s%10s%8s%10s %s", "%8d%8d%8d%10.2f%8d%10.2f %s"
local hl = rep("-", 70)
print("*** local variable list (sorted by allocation order) ***\n"..hl)
print(fmt(tabf1, "Decl.", "Token", "Input", "Input", "Output", "Output", "Global"))
print(fmt(tabf1, "Count", "Count", "Bytes", "Average", "Bytes", "Average", "Name"))
print(hl)
for i = 1, #varlist do -- iterate according to order assigned
local name = varlist[i]
local uniq = afteruniq[name]
local old_t, old_s = 0, 0
for j = 1, #localinfo do -- find corresponding old names and calculate
local obj = localinfo[j]
if obj.name == name then
old_t = old_t + obj.xcount
old_s = old_s + obj.xcount * #obj.oldname
end
end
print(fmt(tabf2, uniq.decl, uniq.token, old_s, avg(old_t, old_s),
uniq.size, avg(uniq.token, uniq.size), name))
end
print(hl)
print(fmt(tabf2, decl_lo, token_lo, size_li, avg(token_li, size_li),
size_lo, avg(token_lo, size_lo), "TOTAL"))
print(hl.."\n")
end
end--if opt_details
-- Display output
do
local tabf1, tabf2 = "%-16s%8s%8s%8s%8s%10s", "%-16s%8d%8d%8d%8d%10.2f"
local hl = rep("-", 58)
print("*** local variable optimization summary ***\n"..hl)
print(fmt(tabf1, "Variable", "Unique", "Decl.", "Token", "Size", "Average"))
print(fmt(tabf1, "Types", "Names", "Count", "Count", "Bytes", "Bytes"))
print(hl)
print(fmt(tabf2, "Global", uniq_g, decl_g, token_g, size_g, avg(token_g, size_g)))
print(hl)
print(fmt(tabf2, "Local (in)", uniq_li, decl_li, token_li, size_li, avg(token_li, size_li)))
print(fmt(tabf2, "TOTAL (in)", uniq_ti, decl_ti, token_ti, size_ti, avg(token_ti, size_ti)))
print(hl)
print(fmt(tabf2, "Local (out)", uniq_lo, decl_lo, token_lo, size_lo, avg(token_lo, size_lo)))
print(fmt(tabf2, "TOTAL (out)", uniq_to, decl_to, token_to, size_to, avg(token_to, size_to)))
print(hl.."\n")
end
end
--- Does experimental optimization for f("string") statements.
--
-- It's safe to delete parentheses without adding whitespace, as both
-- kinds of strings can abut with anything else.
local function optimize_func1()
local function is_strcall(j) -- find f("string") pattern
local t1 = tokpar[j + 1] or ""
local t2 = tokpar[j + 2] or ""
local t3 = tokpar[j + 3] or ""
if t1 == "(" and t2 == "<string>" and t3 == ")" then
return true
end
end
local del_list = {} -- scan for function pattern,
local i = 1 -- tokens to be deleted are marked
while i <= #tokpar do
local id = statinfo[i]
if id == "call" and is_strcall(i) then -- found & mark ()
del_list[i + 1] = true -- '('
del_list[i + 3] = true -- ')'
i = i + 3
end
i = i + 1
end
-- Delete a token and adjust all relevant tables.
-- * Currently invalidates globalinfo and localinfo (not updated),
-- so any other optimization is done after processing locals
-- (of course, we can also lex the source data again...).
-- * Faster one-pass token deletion.
local del_list2 = {}
do
local i, dst, idend = 1, 1, #tokpar
while dst <= idend do -- process parser tables
if del_list[i] then -- found a token to delete?
del_list2[xrefpar[i]] = true
i = i + 1
end
if i > dst then
if i <= idend then -- shift table items lower
tokpar[dst] = tokpar[i]
seminfopar[dst] = seminfopar[i]
xrefpar[dst] = xrefpar[i] - (i - dst)
statinfo[dst] = statinfo[i]
else -- nil out excess entries
tokpar[dst] = nil
seminfopar[dst] = nil
xrefpar[dst] = nil
statinfo[dst] = nil
end
end
i = i + 1
dst = dst + 1
end
end
do
local i, dst, idend = 1, 1, #toklist
while dst <= idend do -- process lexer tables
if del_list2[i] then -- found a token to delete?
i = i + 1
end
if i > dst then
if i <= idend then -- shift table items lower
toklist[dst] = toklist[i]
seminfolist[dst] = seminfolist[i]
else -- nil out excess entries
toklist[dst] = nil
seminfolist[dst] = nil
end
end
i = i + 1
dst = dst + 1
end
end
end
--- Does local variable optimization.
--
-- @tparam {[string]=bool,...} option
local function optimize_locals(option)
var_new = 0 -- reset variable name allocator
varlist = {}
-- Preprocess global/local tables, handle entropy reduction.
globaluniq = preprocess(globalinfo)
localuniq = preprocess(localinfo)
if option["opt-entropy"] then -- for entropy improvement
recalc_for_entropy(option)
end
-- Build initial declared object table, then sort according to
-- token count, this might help assign more tokens to more common
-- variable names such as 'e' thus possibly reducing entropy.
-- * An object knows its localinfo index via its 'id' field.
-- * Special handling for "self" and "_ENV" special local (parameter) here.
local object = {}
for i = 1, #localinfo do
object[i] = localinfo[i]
end
sort(object, function(v1, v2) -- sort largest first
return v1.xcount > v2.xcount
end)
-- The special "self" and "_ENV" function parameters must be preserved.
-- * The allocator below will never use "self", so it is safe to
-- keep those implicit declarations as-is.
local temp, j, used_specials = {}, 1, {}
for i = 1, #object do
local obj = object[i]
if not obj.is_special then
temp[j] = obj
j = j + 1
else
used_specials[#used_specials + 1] = obj.name
end
end
object = temp
-- A simple first-come first-served heuristic name allocator,
-- note that this is in no way optimal...
-- * Each object is a local variable declaration plus existence.
-- * The aim is to assign short names to as many tokens as possible,
-- so the following tries to maximize name reuse.
-- * Note that we preserve sort order.
local nobject = #object
while nobject > 0 do
local varname, gcollide
repeat
varname, gcollide = new_var_name() -- collect a variable name
until not SKIP_NAME[varname] -- skip all special names
varlist[#varlist + 1] = varname -- keep a list
local oleft = nobject
-- If variable name collides with an existing global, the name
-- cannot be used by a local when the name is accessed as a global
-- during which the local is alive (between 'act' to 'rem'), so
-- we drop objects that collides with the corresponding global.
if gcollide then
-- find the xref table of the global
local gref = globalinfo[globaluniq[varname].id].xref
local ngref = #gref
-- enumerate for all current objects; all are valid at this point
for i = 1, nobject do
local obj = object[i]
local act, rem = obj.act, obj.rem -- 'live' range of local
-- if rem < 0, it is a -id to a local that had the same name
-- so follow rem to extend it; does this make sense?
while rem < 0 do
rem = localinfo[-rem].rem
end
local drop
for j = 1, ngref do
local p = gref[j]
if p >= act and p <= rem then drop = true end -- in range?
end
if drop then
obj.skip = true
oleft = oleft - 1
end
end--for
end--if gcollide
-- Now the first unassigned local (since it's sorted) will be the
-- one with the most tokens to rename, so we set this one and then
-- eliminate all others that collides, then any locals that left
-- can then reuse the same variable name; this is repeated until
-- all local declaration that can use this name is assigned.
--
-- The criteria for local-local reuse/collision is:
-- A is the local with a name already assigned
-- B is the unassigned local under consideration
-- => anytime A is accessed, it cannot be when B is 'live'
-- => to speed up things, we have first/last accesses noted
while oleft > 0 do
local i = 1
while object[i].skip do -- scan for first object
i = i + 1
end
-- First object is free for assignment of the variable name
-- [first,last] gives the access range for collision checking.
oleft = oleft - 1
local obja = object[i]
i = i + 1
obja.newname = varname
obja.skip = true
obja.done = true
local first, last = obja.first, obja.last
local xref = obja.xref
-- Then, scan all the rest and drop those colliding.
-- If A was never accessed then it'll never collide with anything
-- otherwise trivial skip if:
-- * B was activated after A's last access (last < act),
-- * B was removed before A's first access (first > rem),
-- if not, see detailed skip below...
if first and oleft > 0 then -- must have at least 1 access
local scanleft = oleft
while scanleft > 0 do
while object[i].skip do -- next valid object
i = i + 1
end
scanleft = scanleft - 1
local objb = object[i]
i = i + 1
local act, rem = objb.act, objb.rem -- live range of B
-- if rem < 0, extend range of rem thru' following local
while rem < 0 do
rem = localinfo[-rem].rem
end
if not(last < act or first > rem) then -- possible collision
-- B is activated later than A or at the same statement,
-- this means for no collision, A cannot be accessed when B
-- is alive, since B overrides A (or is a peer).
if act >= obja.act then
for j = 1, obja.xcount do -- ... then check every access
local p = xref[j]
if p >= act and p <= rem then -- A accessed when B live!
oleft = oleft - 1
objb.skip = true
break
end
end--for
-- A is activated later than B, this means for no collision,
-- A's access is okay since it overrides B, but B's last
-- access need to be earlier than A's activation time.
else
if objb.last and objb.last >= obja.act then
oleft = oleft - 1
objb.skip = true
end
end
end
if oleft == 0 then break end
end
end--if first
end--while
-- After assigning all possible locals to one variable name, the
-- unassigned locals/objects have the skip field reset and the table
-- is compacted, to hopefully reduce iteration time.
local temp, j = {}, 1
for i = 1, nobject do
local obj = object[i]
if not obj.done then
obj.skip = false
temp[j] = obj
j = j + 1
end
end
object = temp -- new compacted object table
nobject = #object -- objects left to process
end--while
-- After assigning all locals with new variable names, we can
-- patch in the new names, and reprocess to get 'after' stats.
for i = 1, #localinfo do -- enumerate all locals
local obj = localinfo[i]
local xref = obj.xref
if obj.newname then -- if got new name, patch it in
for j = 1, obj.xcount do
local p = xref[j] -- xrefs indexes the token list
seminfolist[p] = obj.newname
end
obj.name, obj.oldname -- adjust names
= obj.newname, obj.name
else
obj.oldname = obj.name -- for cases like 'self'
end
end
-- Deal with statistics output.
for _, name in ipairs(used_specials) do
varlist[#varlist + 1] = name
end
local afteruniq = preprocess(localinfo)
stats_summary(globaluniq, localuniq, afteruniq, option)
end
--- The main entry point.
--
-- @tparam table option
-- @tparam {string,...} _toklist
-- @tparam {string,...} _seminfolist
-- @tparam table xinfo
function M.optimize(option, _toklist, _seminfolist, xinfo)
-- set tables
toklist, seminfolist -- from lexer
= _toklist, _seminfolist
tokpar, seminfopar, xrefpar -- from parser
= xinfo.toklist, xinfo.seminfolist, xinfo.xreflist
globalinfo, localinfo, statinfo -- from parser
= xinfo.globalinfo, xinfo.localinfo, xinfo.statinfo
-- Optimize locals.
if option["opt-locals"] then
optimize_locals(option)
end
-- Other optimizations.
if option["opt-experimental"] then -- experimental
optimize_func1()
-- WARNING globalinfo and localinfo now invalidated!
end
end
return M

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@ -0,0 +1,90 @@
---------
-- Example of a plugin for LuaSrcDiet.
--
-- WARNING: highly experimental! interface liable to change
--
-- **Notes:**
--
-- * Any function can be omitted and LuaSrcDiet won't call it.
-- * The functions are:
-- (1) init(_option, _srcfl, _destfl)
-- (2) post_load(z) can return z
-- (3) post_lex(toklist, seminfolist, toklnlist)
-- (4) post_parse(globalinfo, localinfo)
-- (5) post_optparse()
-- (6) post_optlex(toklist, seminfolist, toklnlist)
-- * Older tables can be copied and kept in the plugin and used later.
-- * If you modify 'option', remember that LuaSrcDiet might be
-- processing more than one file.
-- * Arrangement of the functions is not final!
-- * TODO: can't process additional options from command line yet
----
local M = {}
local option -- local reference to list of options
local srcfl, destfl -- filenames
local old_quiet
local function print(...) -- handle quiet option
if option.QUIET then return end
_G.print(...)
end
--- Initialization.
--
-- @tparam {[string]=bool,...} _option
-- @tparam string _srcfl Path of the source file.
-- @tparam string _destfl Path of the destination file.
function M.init(_option, _srcfl, _destfl)
option = _option
srcfl, destfl = _srcfl, _destfl
-- plugin can impose its own option starting from here
end
--- Message display, post-load processing, can return z.
function M.post_load(z)
-- this message will print after the LuaSrcDiet title message
print([[
Example plugin module for LuaSrcDiet
]])
print("Example: source file name is '"..srcfl.."'")
print("Example: destination file name is '"..destfl.."'")
print("Example: the size of the source file is "..#z.." bytes")
-- returning z is optional; this allows optional replacement of
-- the source data prior to lexing
return z
end
--- Post-lexing processing, can work on lexer table output.
function M.post_lex(toklist, seminfolist, toklnlist) --luacheck: ignore
print("Example: the number of lexed elements is "..#toklist)
end
--- Post-parsing processing, gives globalinfo, localinfo.
function M.post_parse(globalinfo, localinfo)
print("Example: size of globalinfo is "..#globalinfo)
print("Example: size of localinfo is "..#localinfo)
old_quiet = option.QUIET
option.QUIET = true
end
--- Post-parser optimization processing, can get tables from elsewhere.
function M.post_optparse()
option.QUIET = old_quiet
print("Example: pretend to do post-optparse")
end
--- Post-lexer optimization processing, can get tables from elsewhere.
function M.post_optlex(toklist, seminfolist, toklnlist) --luacheck: ignore
print("Example: pretend to do post-optlex")
-- restore old settings, other file might need original settings
option.QUIET = old_quiet
-- option.EXIT can be set at the end of any post_* function to stop
-- further processing and exit for the current file being worked on
-- in this case, final stats printout is disabled and the output will
-- not be written to the destination file
option.EXIT = true
end
return M

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---------
-- Turns Lua 5.1 source code into HTML files.
--
-- WARNING: highly experimental! interface liable to change
--
-- **Notes:**
--
-- * This HTML highlighter marks globals brightly so that their usage
-- can be manually optimized.
-- * Either uses a .html extension for output files or it follows the
-- -o <filespec> option.
-- * The HTML style tries to follow that of the Lua wiki.
----
local fs = require "luasrcdiet.fs"
local concat = table.concat
local find = string.find
local fmt = string.format
local sub = string.sub
local M = {}
local HTML_EXT = ".html"
local ENTITIES = {
["&"] = "&amp;", ["<"] = "&lt;", [">"] = "&gt;",
["'"] = "&apos;", ["\""] = "&quot;",
}
-- simple headers and footers
local HEADER = [[
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
<html>
<head>
<title>%s</title>
<meta name="Generator" content="LuaSrcDiet">
<style type="text/css">
%s</style>
</head>
<body>
<pre class="code">
]]
local FOOTER = [[
</pre>
</body>
</html>
]]
-- for more, please see wikimain.css from the Lua wiki site
local STYLESHEET = [[
BODY {
background: white;
color: navy;
}
pre.code { color: black; }
span.comment { color: #00a000; }
span.string { color: #009090; }
span.keyword { color: black; font-weight: bold; }
span.number { color: #993399; }
span.operator { }
span.name { }
span.global { color: #ff0000; font-weight: bold; }
span.local { color: #0000ff; font-weight: bold; }
]]
local option -- local reference to list of options
local srcfl, destfl -- filenames
local toklist, seminfolist -- token data
local function print(...) -- handle quiet option
if option.QUIET then return end
_G.print(...)
end
--- Initialization.
function M.init(_option, _srcfl)
option = _option
srcfl = _srcfl
local extb, _ = find(srcfl, "%.[^%.%\\%/]*$")
local basename = srcfl
if extb and extb > 1 then
basename = sub(srcfl, 1, extb - 1)
end
destfl = basename..HTML_EXT
if option.OUTPUT_FILE then
destfl = option.OUTPUT_FILE
end
if srcfl == destfl then
error("output filename identical to input filename")
end
end
--- Message display, post-load processing.
function M.post_load()
print([[
HTML plugin module for LuaSrcDiet
]])
print("Exporting: "..srcfl.." -> "..destfl.."\n")
end
--- Post-lexing processing, can work on lexer table output.
function M.post_lex(_toklist, _seminfolist)
toklist, seminfolist = _toklist, _seminfolist
end
--- Escapes the usual suspects for HTML/XML.
local function do_entities(z)
local i = 1
while i <= #z do
local c = sub(z, i, i)
local d = ENTITIES[c]
if d then
c = d
z = sub(z, 1, i - 1)..c..sub(z, i + 1)
end
i = i + #c
end--while
return z
end
--- Post-parsing processing, gives globalinfo, localinfo.
function M.post_parse(globalinfo, localinfo)
local html = {}
local function add(s) -- html helpers
html[#html + 1] = s
end
local function span(class, s)
add('<span class="'..class..'">'..s..'</span>')
end
for i = 1, #globalinfo do -- mark global identifiers as TK_GLOBAL
local obj = globalinfo[i]
local xref = obj.xref
for j = 1, #xref do
local p = xref[j]
toklist[p] = "TK_GLOBAL"
end
end--for
for i = 1, #localinfo do -- mark local identifiers as TK_LOCAL
local obj = localinfo[i]
local xref = obj.xref
for j = 1, #xref do
local p = xref[j]
toklist[p] = "TK_LOCAL"
end
end--for
add(fmt(HEADER, -- header and leading stuff
do_entities(srcfl),
STYLESHEET))
for i = 1, #toklist do -- enumerate token list
local tok, info = toklist[i], seminfolist[i]
if tok == "TK_KEYWORD" then
span("keyword", info)
elseif tok == "TK_STRING" or tok == "TK_LSTRING" then
span("string", do_entities(info))
elseif tok == "TK_COMMENT" or tok == "TK_LCOMMENT" then
span("comment", do_entities(info))
elseif tok == "TK_GLOBAL" then
span("global", info)
elseif tok == "TK_LOCAL" then
span("local", info)
elseif tok == "TK_NAME" then
span("name", info)
elseif tok == "TK_NUMBER" then
span("number", info)
elseif tok == "TK_OP" then
span("operator", do_entities(info))
elseif tok ~= "TK_EOS" then -- TK_EOL, TK_SPACE
add(info)
end
end--for
add(FOOTER)
assert(fs.write_file(destfl, concat(html), "wb"))
option.EXIT = true
end
return M

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@ -0,0 +1,89 @@
---------
-- Calculates SLOC for Lua 5.1 scripts
--
-- WARNING: highly experimental! interface liable to change
--
-- **Notes:**
--
-- * SLOC's behaviour is based on David Wheeler's SLOCCount.
-- * Empty lines and comment don't count as significant.
-- * Empty lines in long strings are also insignificant. This is
-- debatable. In SLOCCount, this allows counting of invalid multi-
-- line strings for C. But an empty line is still an empty line.
-- * Ignores the --quiet option, print own result line.
----
local M = {}
local option -- local reference to list of options
local srcfl -- source file name
function M.init(_option, _srcfl)
option = _option
option.QUIET = true
srcfl = _srcfl
end
--- Splits a block into a table of lines (minus EOLs).
--
-- @tparam string blk
-- @treturn {string,...} lines
local function split(blk)
local lines = {}
local i, nblk = 1, #blk
while i <= nblk do
local p, q, r, s = blk:find("([\r\n])([\r\n]?)", i)
if not p then
p = nblk + 1
end
lines[#lines + 1] = blk:sub(i, p - 1)
i = p + 1
if p < nblk and q > p and r ~= s then -- handle Lua-style CRLF, LFCR
i = i + 1
end
end
return lines
end
--- Post-lexing processing, can work on lexer table output.
function M.post_lex(toklist, seminfolist, toklnlist)
local lnow, sloc = 0, 0
local function chk(ln) -- if a new line, count it as an SLOC
if ln > lnow then -- new line # must be > old line #
sloc = sloc + 1; lnow = ln
end
end
for i = 1, #toklist do -- enumerate over all tokens
local tok, info, ln
= toklist[i], seminfolist[i], toklnlist[i]
if tok == "TK_KEYWORD" or tok == "TK_NAME" or -- significant
tok == "TK_NUMBER" or tok == "TK_OP" then
chk(ln)
-- Both TK_STRING and TK_LSTRING may be multi-line, hence, a loop
-- is needed in order to mark off lines one-by-one. Since llex.lua
-- currently returns the line number of the last part of the string,
-- we must subtract in order to get the starting line number.
elseif tok == "TK_STRING" then -- possible multi-line
local t = split(info)
ln = ln - #t + 1
for _ = 1, #t do
chk(ln); ln = ln + 1
end
elseif tok == "TK_LSTRING" then -- possible multi-line
local t = split(info)
ln = ln - #t + 1
for j = 1, #t do
if t[j] ~= "" then chk(ln) end
ln = ln + 1
end
-- Other tokens are comments or whitespace and are ignored.
end
end--for
print(srcfl..": "..sloc) -- display result
option.EXIT = true
end
return M

View File

@ -0,0 +1,30 @@
---------
-- General utility functions.
--
-- **Note: This module is not part of public API!**
----
local ipairs = ipairs
local pairs = pairs
local M = {}
--- Returns a new table containing the contents of all the given tables.
-- Tables are iterated using @{pairs}, so this function is intended for tables
-- that represent *associative arrays*. Entries with duplicate keys are
-- overwritten with the values from a later table.
--
-- @tparam {table,...} ... The tables to merge.
-- @treturn table A new table.
function M.merge (...)
local result = {}
for _, tab in ipairs{...} do
for key, val in pairs(tab) do
result[key] = val
end
end
return result
end
return M

View File

@ -16,6 +16,9 @@
# You should have received a copy of the GNU General Public License along with # You should have received a copy of the GNU General Public License along with
# this program; if not, write to the Free Software Foundation, Inc., 51 Franklin # this program; if not, write to the Free Software Foundation, Inc., 51 Franklin
# Street, Fifth Floor, Boston, MA 02110-1301 USA. # Street, Fifth Floor, Boston, MA 02110-1301 USA.
# version 0.6.4 based version
# Version 0.8.0 upgraded to python3
import sys import sys
import serial import serial
@ -25,7 +28,7 @@ import argparse
from os.path import basename from os.path import basename
version = "0.6.4" version = "0.8.0"
class TransportError(Exception): class TransportError(Exception):
@ -51,15 +54,19 @@ class AbstractTransport:
def writer(self, data): def writer(self, data):
self.writeln("file.writeline([==[" + data + "]==])\r") self.writeln("file.writeline([==[" + data + "]==])\r")
def execute(self, data):
self.writeln(data + "\r")
def performcheck(self, expected): def performcheck(self, expected):
line = '' line = ''
char = '' char = ''
i = -1 i = -1
while char != chr(62): # '>' while (len(char) == 0) or (ord(char) != 62): # '>'
char = self.read(1) char = self.read(1)
#print(ord(char))
if char == '': if char == '':
raise Exception('No proper answer from MCU') raise Exception('No proper answer from MCU')
if char == chr(13) or char == chr(10): # LF or CR if ord(char) == 13 or ord(char) == 10: # LF or CR
if line != '': if line != '':
line = line.strip() line = line.strip()
if line+'\r' == expected: if line+'\r' == expected:
@ -78,8 +85,8 @@ class AbstractTransport:
raise Exception('Error sending data to MCU\r\n\r\n') raise Exception('Error sending data to MCU\r\n\r\n')
line = '' line = ''
else: else:
line += char line += char.decode("utf-8")
if char == chr(62) and expected[i] == char: if ord(char) == 62 and expected[i] == char:
char = '' char = ''
i += 1 i += 1
@ -105,7 +112,7 @@ class SerialTransport(AbstractTransport):
if len(data) > 0: if len(data) > 0:
sys.stdout.write("\r\n->") sys.stdout.write("\r\n->")
sys.stdout.write(data.split("\r")[0]) sys.stdout.write(data.split("\r")[0])
self.serial.write(data) self.serial.write(str.encode(data))
sleep(self.delay) sleep(self.delay)
if check > 0: if check > 0:
self.performcheck(data) self.performcheck(data)
@ -142,7 +149,7 @@ class TcpSocketTransport(AbstractTransport):
if len(data) > 0: if len(data) > 0:
sys.stdout.write("\r\n->") sys.stdout.write("\r\n->")
sys.stdout.write(data.split("\r")[0]) sys.stdout.write(data.split("\r")[0])
self.socket.sendall(data) self.socket.sendall(str.encode(data))
if check > 0: if check > 0:
self.performcheck(data) self.performcheck(data)
else: else:
@ -186,6 +193,7 @@ if __name__ == '__main__':
parser.add_argument('-e', '--echo', action='store_true', help='Echo output of MCU until script is terminated.') parser.add_argument('-e', '--echo', action='store_true', help='Echo output of MCU until script is terminated.')
parser.add_argument('--delay', default=0.3, help='Delay in seconds between each write.', type=float) parser.add_argument('--delay', default=0.3, help='Delay in seconds between each write.', type=float)
parser.add_argument('--delete', default=None, help='Delete a lua/lc file from device.') parser.add_argument('--delete', default=None, help='Delete a lua/lc file from device.')
parser.add_argument('--volatile', action='store_true', help='Volatile (nothing stored on ESP)')
parser.add_argument('--ip', default=None, help='Connect to a telnet server on the device (--ip IP[:port])') parser.add_argument('--ip', default=None, help='Connect to a telnet server on the device (--ip IP[:port])')
args = parser.parse_args() args = parser.parse_args()
@ -197,7 +205,7 @@ if __name__ == '__main__':
char = transport.read(1) char = transport.read(1)
if char == '' or char == chr(62): if char == '' or char == chr(62):
break break
sys.stdout.write(char) sys.stdout.write(str.encode(char))
sys.exit(0) sys.exit(0)
if args.id: if args.id:
@ -208,7 +216,7 @@ if __name__ == '__main__':
if char == '' or char == chr(62): if char == '' or char == chr(62):
break break
if char.isdigit(): if char.isdigit():
id += char id += char.decode("utf-8")
print("\n"+id) print("\n"+id)
sys.exit(0) sys.exit(0)
@ -218,10 +226,10 @@ if __name__ == '__main__':
fn = "" fn = ""
while True: while True:
char = transport.read(1) char = transport.read(1)
if char == '' or char == chr(62): if char == '' or len(char) == 0 or ord(char) == 62:
break break
if char not in ['\r', '\n']: if char not in ['\r', '\n']:
fn += char fn += str(char)
else: else:
if fn: if fn:
file_list.append(fn.strip()) file_list.append(fn.strip())
@ -266,7 +274,7 @@ if __name__ == '__main__':
sys.stderr.write("Upload starting\r\n") sys.stderr.write("Upload starting\r\n")
# remove existing file on device # remove existing file on device
if args.append==False: if args.append==False and not args.volatile:
if args.verbose: if args.verbose:
sys.stderr.write("Stage 1. Deleting old file from flash memory") sys.stderr.write("Stage 1. Deleting old file from flash memory")
transport.writeln("file.open(\"" + args.dest + "\", \"w\")\r") transport.writeln("file.open(\"" + args.dest + "\", \"w\")\r")
@ -280,23 +288,31 @@ if __name__ == '__main__':
# read source file line by line and write to device # read source file line by line and write to device
if args.verbose: if args.verbose:
sys.stderr.write("\r\nStage 2. Creating file in flash memory and write first line") sys.stderr.write("\r\nStage 2. Creating file in flash memory and write first line")
if args.append: if not args.volatile:
transport.writeln("file.open(\"" + args.dest + "\", \"a+\")\r") if args.append:
transport.writeln("file.open(\"" + args.dest + "\", \"a+\")\r")
else:
transport.writeln("file.open(\"" + args.dest + "\", \"w+\")\r")
else: else:
transport.writeln("file.open(\"" + args.dest + "\", \"w+\")\r") if args.verbose:
sys.stderr.write("\r\nStage 2. Directly execute the script...")
line = f.readline() line = f.readline()
if args.verbose: if args.verbose:
sys.stderr.write("\r\nStage 3. Start writing data to flash memory...") sys.stderr.write("\r\nStage 3. Start writing data to flash memory...")
while line != '': while line != '':
transport.writer(line.strip()) if args.volatile:
transport.execute(line.strip())
else:
transport.writer(line.strip())
line = f.readline() line = f.readline()
# close both files # close both files
f.close() f.close()
if args.verbose: if args.verbose:
sys.stderr.write("\r\nStage 4. Flush data and closing file") sys.stderr.write("\r\nStage 4. Flush data and closing file")
transport.writeln("file.flush()\r") if not args.volatile:
transport.writeln("file.close()\r") transport.writeln("file.flush()\r")
transport.writeln("file.close()\r")
# compile? # compile?
if args.compile: if args.compile:
@ -315,7 +331,8 @@ if __name__ == '__main__':
if args.verbose: if args.verbose:
sys.stderr.write("\r\nEchoing MCU output, press Ctrl-C to exit") sys.stderr.write("\r\nEchoing MCU output, press Ctrl-C to exit")
while True: while True:
sys.stdout.write(transport.read(1)) data = transport.read(1)
sys.stdout.write( data.decode("ascii") )
# close serial port # close serial port
transport.close() transport.close()

View File

@ -1,49 +1,96 @@
#!/bin/bash #!/bin/bash
IP=$1 MQTTSERVER=$1
MQTTPREFIX=$2
CUSTOMFILE=$3
FLASHTOOL=./tools/tcpFlash.py FLASHTOOL=./tools/tcpFlash.py
TOOLDIR=tools/
DIET=bin/luasrcdiet
UPGRADEPREP=/tmp/upgradeCMD4clock.txt
if [ ! -f $FLASHTOOL ]; then if [ ! -f $FLASHTOOL ]; then
echo "Execute the script in root folder of the project" echo "Execute the script in root folder of the project"
exit 2 exit 2
fi fi
if [ "$IP" == "" ]; then if [[ "$MQTTPREFIX" == "" ]] || [[ "$MQTTSERVER" == "" ]]; then
echo "IP address of ESP required" echo "MQTTSERVER: ip address to mqtt server"
echo "MQTTPREFIX: configured prefex in MQTT of ESP required"
echo "usage:" echo "usage:"
echo "$0 <IP>" echo "$0 <MQTTSERVER> <MQTTPREFIX>"
echo "$0 192.168.0.2" echo "$0 192.168.0.2 basetopic"
exit 1 exit 1
fi fi
# Prepare all files on host
if [[ "$CUSTOMFILE" == "" ]]; then
FILES="displayword.lua main.lua timecore.lua webpage.html webserver.lua wordclock.lua init.lua"
echo "Start Flasing ..."
else
FILES=$CUSTOMFILE
echo "Start Flasing $FILES ..."
fi
# Convert files, if necessary
if [ "$FILES" != "config.lua" ]; then
echo "Generate DIET version of the files"
OUTFILES=""
ROOTDIR=$PWD
cd $TOOLDIR
for f in $FILES; do
if [[ "$f" == *.lua ]] && [[ "$f" != init.lua ]]; then
echo "Compress $f ..."
out=$(echo "$f" | sed 's/.lua/_diet.lua/g')
$DIET ../$f -o ../diet/$out >> /dev/null
OUTFILES="$OUTFILES diet/$out"
else
OUTFILES="$OUTFILES $f"
fi
done
FILES=$OUTFILES
cd $ROOTDIR
fi
# check the connection # check the connection
echo "Searching $IP ..." echo "Searching $MQTTPREFIX ..."
ping $IP -c 2 >> /dev/null mosquitto_sub -h $MQTTSERVER -t "$MQTTPREFIX/#" -C 1 -v
if [ $? -ne 0 ]; then if [ $? -ne 0 ]; then
echo "Entered IP address: $IP is NOT online" echo "Entered Wordclock address: $MQTTPREFIX on $MQTTSERVER is NOT online"
exit 2 exit 2
fi fi
echo "Upgrading $IP" echo "Activate Telnet server ..."
TELNETIP="empty"
while [ "$TELNETIP" = "empty" ]; do
date
mosquitto_pub -h $MQTTSERVER -t "$MQTTPREFIX/cmd/telnet" -m "a"
TELNETIP=$(mosquitto_sub -h $MQTTSERVER -t "$MQTTPREFIX/telnet" -C 1 -W 30)
done
echo "stopWordclock()" > /tmp/wordClockCMD.txt echo "Upgrading $MQTTPREFIX via telenet on $TELNETIP ..."
echo "uart.write(0, tostring(node.heap())" >> /tmp/wordClockCMD.txt sleep 1
echo "c = string.char(0,0,128)" >> /tmp/wordClockCMD.txt echo "if (mlt ~= nil) then mlt:unregister() end" > $UPGRADEPREP
echo "w = string.char(0,0,0)" >> /tmp/wordClockCMD.txt echo "uart.write(0, tostring(node.heap())" >> $UPGRADEPREP
echo "ws2812.write(w:rep(4) .. c .. w:rep(15) .. c .. w:rep(9) .. c .. w:rep(30) .. c .. w:rep(41) .. c )" >> /tmp/wordClockCMD.txt echo "collectgarbage()" >> $UPGRADEPREP
$FLASHTOOL -f /tmp/wordClockCMD.txt -t $IP -v echo "" >> $UPGRADEPREP
echo "download = string.char(0,0,64)" >> $UPGRADEPREP
echo "w = string.char(0,0,0)" >> $UPGRADEPREP
echo "ws2812.write(w:rep(4) .. download .. w:rep(15) .. download .. w:rep(9) .. download .. w:rep(30) .. download .. w:rep(41) .. download )" >> $UPGRADEPREP
echo "collectgarbage()" >> $UPGRADEPREP
$FLASHTOOL -f $UPGRADEPREP -t $TELNETIP -v
FILES="displayword.lua main.lua timecore.lua webpage.html webserver.lua wordclock.lua init.lua"
echo "Start Flasing ..."
for f in $FILES; do for f in $FILES; do
if [ ! -f $f ]; then if [ ! -f $f ]; then
echo "Cannot find $f" echo "Cannot find $f"
echo "place the terminal into the folder where the lua files are present" echo "place the terminal into the folder where the lua files are present"
exit 1 exit 1
fi fi
echo "------------- $f ------------" espFile=$(echo "$f" | sed 's;diet/;;g')
$FLASHTOOL -t $IP -f $f echo "------------- $espFile ------------"
$FLASHTOOL -t $TELNETIP -f $f -o $espFile
if [ $? -ne 0 ]; then if [ $? -ne 0 ]; then
echo "STOOOOP" echo "STOOOOP"
exit 1 exit 1
@ -51,6 +98,6 @@ for f in $FILES; do
done done
echo "TODO: Reboot the ESP" echo "TODO: Reboot the ESP"
#echo "node.restart()" | nc $IP 80 #echo "node.restart()" | nc $TELNETIP 23
exit 0 exit 0

2
tools/stopController.lua Normal file
View File

@ -0,0 +1,2 @@
node.restart()
if (initTimer ~= nil) then initTimer:unregister() end

View File

@ -43,13 +43,13 @@ def sendCmd(s, message, cleaningEnter=False):
print "ERROR, received : " + reply print "ERROR, received : " + reply
return False return False
def main(nodeip, luafile, volatile=None): def main(nodeip, luafile, volatile=None, outfile=None):
if ( not os.path.isfile(luafile) ): if ( not os.path.isfile(luafile) ):
print "The file " + luafile + " is not available" print "The file " + luafile + " is not available"
else: else:
try: try:
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((nodeip, 80)) s.connect((nodeip, 23))
time.sleep(0.050) time.sleep(0.050)
s.sendall("\n") s.sendall("\n")
# Receive the hello Message of answer of the ESP # Receive the hello Message of answer of the ESP
@ -71,14 +71,15 @@ def main(nodeip, luafile, volatile=None):
print "NOT communicating with an ESP8266 running LUA (nodemcu) firmware" print "NOT communicating with an ESP8266 running LUA (nodemcu) firmware"
s.close() s.close()
sys.exit(3) sys.exit(3)
sendCmd(s, "for i=0,5 do tmr.stop(i) end")
sendCmd(s, "collectgarbage()")
if (volatile is None): if (volatile is None):
print "Flashing " + luafile if (outfile is None):
sendCmd(s, "file.remove(\"" + luafile+"\");", True) print "Flashing " + luafile
outfile=luafile
else:
print "Flashing " + luafile + " as " + outfile
sendCmd(s, "w= file.writeline", True) sendCmd(s, "w= file.writeline", True)
sendCmd(s, "file.open(\"" + luafile + "\",\"w+\");", True) sendCmd(s, "file.open(\"temp.lua\",\"w+\");", True)
else: else:
print "Executing " + luafile + " on nodemcu" print "Executing " + luafile + " on nodemcu"
@ -94,7 +95,7 @@ def main(nodeip, luafile, volatile=None):
print "add a space at the end" print "add a space at the end"
if (volatile is None): if (volatile is None):
if (not sendCmd(s, "w([[" + l + "]]);")): if (not sendCmd(s, "w([==[" + l + "]==]);")):
print "Cannot write line " + str(i) print "Cannot write line " + str(i)
s.close() s.close()
sys.exit(4) sys.exit(4)
@ -112,13 +113,18 @@ def main(nodeip, luafile, volatile=None):
if (not sendCmd(s, "file.close();")): if (not sendCmd(s, "file.close();")):
print "Cannot close the file" print "Cannot close the file"
sys.exit(4) sys.exit(4)
sendCmd(s, "file.remove(\"" + outfile +"\");", True)
if (not sendCmd(s, "file.rename(\"temp.lua\",\""+ outfile + "\")")):
print "Cannot move temporary file to " + outfile
# Check if the file exists: # Check if the file exists:
if (not sendRecv(s, "=file.exists(\"" + luafile + "\")", "true")): if (not sendRecv(s, "=file.exists(\"" + outfile + "\")", "true")):
print("Cannot send " + luafile + " to the ESP") print("Cannot send " + outfile + " to the ESP")
sys.exit(4) sys.exit(4)
else: else:
print("Updated " + luafile + " successfully") print("Updated " + outfile + " successfully")
else: else:
print("Send " + luafile + " successfully") print("Send " + luafile + " successfully")
@ -133,12 +139,16 @@ if __name__ == '__main__':
parser = argparse.ArgumentParser() parser = argparse.ArgumentParser()
parser.add_argument('-t', '--target', help='IP address or dns of the ESP to flash') parser.add_argument('-t', '--target', help='IP address or dns of the ESP to flash')
parser.add_argument('-f', '--file', help='LUA file, that should be updated') parser.add_argument('-f', '--file', help='LUA file, that should be updated')
parser.add_argument('-o', '--outfile', help='LUA file name on the microcontroller (default: same name as on host)')
parser.add_argument('-v', '--volatile', help='File is executed at the commandline', action='store_const', const=1) parser.add_argument('-v', '--volatile', help='File is executed at the commandline', action='store_const', const=1)
args = parser.parse_args() args = parser.parse_args()
if (args.target and args.file and args.volatile and args.outfile):
if (args.target and args.file and args.volatile): main(args.target, args.file, args.volatile, args.outfile)
main(args.target, args.file, args.volatile) elif (args.target and args.file and args.outfile):
main(args.target, args.file, None, args.outfile)
elif (args.target and args.file and args.volatile):
main(args.target, args.file, args.volatile)
elif (args.target and args.file): elif (args.target and args.file):
main(args.target, args.file) main(args.target, args.file)
else: else:

View File

@ -48,15 +48,6 @@ Please note that all settings are mandatory<br /><br />
<tr><th>SNTP Server</th><td><input id="sntpserver" name="sntpserver" value="$SNTPSERVER"></td><td>Server to sync the time with. Only one ntp server is allowed.</td></tr> <tr><th>SNTP Server</th><td><input id="sntpserver" name="sntpserver" value="$SNTPSERVER"></td><td>Server to sync the time with. Only one ntp server is allowed.</td></tr>
<tr><th>Offset to UTC time</th><td><input id="timezoneoffset" name="timezoneoffset" value="$TIMEOFFSET"></td><td>Define the offset to UTC time in hours. For example +1 hour for Germany</td></tr> <tr><th>Offset to UTC time</th><td><input id="timezoneoffset" name="timezoneoffset" value="$TIMEOFFSET"></td><td>Define the offset to UTC time in hours. For example +1 hour for Germany</td></tr>
<tr><th>Foreground Color</th><td><input type="color" name="fcolor" value="$HEXCOLORFG"></td><td>LED Color for all minutes, divisible by five</td></tr> <tr><th>Foreground Color</th><td><input type="color" name="fcolor" value="$HEXCOLORFG"></td><td>LED Color for all minutes, divisible by five</td></tr>
<tr><th>Background Color</th><td><input type="color" name="bcolor" value="$HEXCOLORBG"></td><td>Background LED Color</td></tr>
<tr><th>1. Minute Color</th><td><input type="color" name="colorMin1" value="$HEXCOLOR1"></td><td>First minute after</td></tr>
<tr><th>2. Minute Color</th><td><input type="color" name="colorMin2" value="$HEXCOLOR2"></td><td>Second minute after</td></tr>
<tr><th>3. Minute Color</th><td><input type="color" name="colorMin3" value="$HEXCOLOR3"></td><td>Third minute after</td></tr>
<tr><th>4. Minute Color</th><td><input type="color" name="colorMin4" value="$HEXCOLOR4"></td><td>Fourth minute after</td></tr>
<tr><th>Three quater</th><td><input type="checkbox" name="threequater" $THREEQUATER></td><td>Dreiviertel Joa/nei</td></tr>
<tr><th>Invert lines 4-6</th><td><input type="checkbox" name="inv46" $THREEQUATER></td><td>invert</td></tr>
<tr><th>Adjust brightnes</th><td><input type="checkbox" name="dim" $AUTODIM></td><td>Adjust brightness of LEDs</td></tr>
<tr><td colspan="3"><div align="center"><input type="submit" value="Save Configuration" onclick="this.value='Submitting ..';this.disabled='disabled'; this.form.submit();"></div></td></tr> <tr><td colspan="3"><div align="center"><input type="submit" value="Save Configuration" onclick="this.value='Submitting ..';this.disabled='disabled'; this.form.submit();"></div></td></tr>
<tr><td colspan="3"><div align="center"><input type="submit" name="action" value="Reboot"></div></td></tr> <tr><td colspan="3"><div align="center"><input type="submit" name="action" value="Reboot"></div></td></tr>
</table> </table>

View File

@ -1,8 +1,7 @@
--TODO: -- Webserver
configFile="config.lua" local configFile="config.lua"
local httpSending=false
httpSending=false local sentBytes=0
sentBytes=0
function sendPage(conn, nameOfFile, replaceMap) function sendPage(conn, nameOfFile, replaceMap)
collectgarbage() collectgarbage()
print("Sending " .. nameOfFile .. " " .. sentBytes .. "B already; " .. node.heap() .. "B in heap") print("Sending " .. nameOfFile .. " " .. sentBytes .. "B already; " .. node.heap() .. "B in heap")
@ -65,43 +64,26 @@ function sendPage(conn, nameOfFile, replaceMap)
--reset amount of sent bytes, as we reached the end --reset amount of sent bytes, as we reached the end
sentBytes=0 sentBytes=0
-- send the rest -- send the rest
conn:send(buf) if (string.len(buf) > 0) then
print("Sent rest") conn:send(buf)
print("Sent rest")
end
end end
end end
function fillDynamicMap() function fillDynamicMap()
replaceMap = {} replaceMap = {}
ssid, _ = wifi.sta.getconfig() ssid, _ = wifi.sta.getconfig()
if (ssid == nil) then return replaceMap end
if (ssid == nil) then if (sntpserverhostname == nil) then sntpserverhostname="ptbtime1.ptb.de" end
ssid="Not set" if (timezoneoffset == nil) then timezoneoffset=1 end
end
if (sntpserverhostname == nil) then
sntpserverhostname="ptbtime1.ptb.de"
end
if (timezoneoffset == nil) then
timezoneoffset=1
end
-- Set the default color, if nothing is set -- Set the default color, if nothing is set
if (color == nil) then if (color == nil) then color=string.char(0,0,250) end
color=string.char(0,0,250) if (color1 == nil) then color1=color end
end if (color2 == nil) then color2=color end
if (color1 == nil) then if (color3 == nil) then color3=color end
color1=color if (color4 == nil) then color4=color end
end if (colorBg == nil) then colorBg=string.char(0,0,0) end
if (color2 == nil) then
color2=color
end
if (color3 == nil) then
color3=color
end
if (color4 == nil) then
color4=color
end
if (colorBg == nil) then
colorBg=string.char(0,0,0) -- black is the default background color
end
local hexColor = "#" .. string.format("%02x",string.byte(color,2)) .. string.format("%02x",string.byte(color,1)) .. string.format("%02x",string.byte(color,3)) local hexColor = "#" .. string.format("%02x",string.byte(color,2)) .. string.format("%02x",string.byte(color,1)) .. string.format("%02x",string.byte(color,3))
local hexColor1 = "#" .. string.format("%02x",string.byte(color1,2)) .. string.format("%02x",string.byte(color1,1)) .. string.format("%02x",string.byte(color1,3)) local hexColor1 = "#" .. string.format("%02x",string.byte(color1,2)) .. string.format("%02x",string.byte(color1,1)) .. string.format("%02x",string.byte(color1,3))
local hexColor2 = "#" .. string.format("%02x",string.byte(color2,2)) .. string.format("%02x",string.byte(color2,1)) .. string.format("%02x",string.byte(color2,3)) local hexColor2 = "#" .. string.format("%02x",string.byte(color2,2)) .. string.format("%02x",string.byte(color2,1)) .. string.format("%02x",string.byte(color2,3))
@ -125,23 +107,6 @@ function fillDynamicMap()
return replaceMap return replaceMap
end end
function stopWordclock()
print("Stop all Wordclock")
-- Stop all
for i=0,5 do tmr.stop(i) end
-- unload all other functions
-- grep function *.lua | grep -v webserver | grep -v init.lua | grep -v main.lua | cut -f 2 -d ':' | grep "^function" | sed "s/function //g" | grep -o "^[a-zA-Z0-9\_]*"
updateColor = nil
drawLEDs = nil
round = nil
generateLEDs = nil
isSummerTime = nil
getUTCtime = nil
getTime = nil
display_timestat = nil
collectgarbage()
end
function startWebServer() function startWebServer()
srv=net.createServer(net.TCP) srv=net.createServer(net.TCP)
srv:listen(80,function(conn) srv:listen(80,function(conn)
@ -152,20 +117,10 @@ function startWebServer()
end end
if (payload:find("GET /") ~= nil) then if (payload:find("GET /") ~= nil) then
httpSending=true httpSending=true
stopWordclock() if (color == nil) then
color=string.char(0,128,0)
end
ws2812.write(string.char(0,0,0):rep(56) .. color:rep(2) .. string.char(0,0,0):rep(4) .. color:rep(2) .. string.char(0,0,0):rep(48)) ws2812.write(string.char(0,0,0):rep(56) .. color:rep(2) .. string.char(0,0,0):rep(4) .. color:rep(2) .. string.char(0,0,0):rep(48))
-- Start Time after 3 minute
tmr.alarm(5, 180000, 0 ,function()
dependModules = { "timecore" , "wordclock", "displayword" }
for _,mod in pairs(dependModules) do
print("Loading " .. mod)
mydofile(mod)
end
-- Start the time Thread again
tmr.alarm(1, 20000, 1 ,function()
displayTime()
end)
end)
if (sendPage ~= nil) then if (sendPage ~= nil) then
print("Sending webpage.html (" .. tostring(node.heap()) .. "B free) ...") print("Sending webpage.html (" .. tostring(node.heap()) .. "B free) ...")
-- Load the sendPagewebcontent -- Load the sendPagewebcontent
@ -280,18 +235,24 @@ function startWebServer()
print("Rename config") print("Rename config")
if (file.rename(configFile .. ".new", configFile)) then if (file.rename(configFile .. ".new", configFile)) then
print("Successfully") print("Successfully")
tmr.alarm(3, 20, 0 ,function() local mytimer = tmr.create()
mytimer:register(50, tmr.ALARM_SINGLE, function (t)
replaceMap=fillDynamicMap() replaceMap=fillDynamicMap()
replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"green\">New configuration saved</font></h2>" replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"green\">New configuration saved</font></h2>"
print("Send success to client") print("Send success to client")
sendPage(conn, "webpage.html", replaceMap) sendPage(conn, "webpage.html", replaceMap)
t:unregister()
end) end)
mytimer:start()
else else
tmr.alarm(3, 20, 0 ,function() local mytimer = tmr.create()
mytimer:register(50, tmr.ALARM_SINGLE, function (t)
replaceMap=fillDynamicMap() replaceMap=fillDynamicMap()
replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"red\">ERROR</font></h2>" replaceMap["$ADDITIONAL_LINE"]="<h2><font color=\"red\">ERROR</font></h2>"
sendPage(conn, "webpage.html", replaceMap) sendPage(conn, "webpage.html", replaceMap)
t:unregister()
end) end)
mytimer:start()
end end
else else
replaceMap=fillDynamicMap() replaceMap=fillDynamicMap()
@ -329,4 +290,26 @@ function startWebServer()
end) end)
end end
--FileView done.
-- start the webserver module
collectgarbage()
wifi.setmode(wifi.SOFTAP)
cfg={}
cfg.ssid="wordclock"
cfg.pwd="wordclock"
wifi.ap.config(cfg)
-- Write the buffer to the LEDs
local color=string.char(0,128,0)
local white=string.char(0,0,0)
local ledBuf= white:rep(6) .. color .. white:rep(7) .. color:rep(3) .. white:rep(44) .. color:rep(3) .. white:rep(50)
ws2812.write(ledBuf)
color=nil
white=nil
ledBuf=nil
print("Waiting in access point >wordclock< for Clients")
print("Please visit 192.168.4.1")
startWebServer()
collectgarbage()

View File

@ -1,21 +1,25 @@
-- Revese engeeniered code of display_wc_ger.c by Vlad Tepesch -- Revese engeeniered code of display_wc_ger.c by Vlad Tepesch
-- See https://www.mikrocontroller.net/articles/Word_Clock_Variante_1#Download -- See https://www.mikrocontroller.net/articles/Word_cl_Variante_1#Download
local M
do
-- @fn display_timestat -- @fn wc_timestat
-- Return the leds to use the granuality is 5 minutes -- Return the leds to use the granuality is 5 minutes
-- @param hours the current hours (0-23) -- @param hours the current hours (0-23)
-- @param minutes the current minute (0-59) -- @param minutes the current minute (0-59)
-- @param longmode (optional parameter) 0: no long mode, 1: long mode (itis will be set) -- @param longmode (optional parameter) 0: no long mode, 1: long mode (itis will be set)
function display_timestat(hours, minutes, longmode) local timestat=function (hours, minutes, longmode)
if (longmode == nil) then if (longmode == nil) then
longmode=0 longmode=0
end end
-- generate an empty return type -- generate an empty return type
local ret = { it=0, is=0, fiveMin=0, tenMin=0, after=0, before=0, threeHour=0, quater=0, threequater=0, half=0, s=0, -- Values: it, is, 5 minutes, 10 minutes, afer, before, three hour, quarter, dreiviertel, half, s
one=0, oneLong=0, two=0, three=0, four=0, five=0, six=0, seven=0, eight=0, nine=0, ten=0, eleven=0, twelve=0, -- hours: one, one Long, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve
twenty=0, -- Special ones: twenty, clock, minute 1 flag, minute 2 flag, minute 3 flag, minute 4 flag
clock=0, sr_nc=0, min1=0, min2=0, min3=0, min4=0 } local ret = { it=0, is=0, m5=0, m10=0, ha=0, hb=0, h3=0, hq=0, h3q=0, half=0, s=0,
h1=0, h1l=0, h2=0, h3=0, h4=0, h5=0, h6=0, h7=0, h8=0, h9=0, h10=0, h11=0, h12=0,
m20=0, cl=0, m1=0, m2=0, m3=0, m4=0 }
-- return black screen if there is no real time given -- return black screen if there is no real time given
if (hours == nil or minutes == nil) then if (hours == nil or minutes == nil) then
@ -38,61 +42,61 @@ function display_timestat(hours, minutes, longmode)
-- Handle minutes -- Handle minutes
if (minutes > 0) then if (minutes > 0) then
if (minutes==1) then if (minutes==1) then
ret.fiveMin=1 ret.m5=1
ret.after=1 ret.ha=1
elseif (minutes==2) then elseif (minutes==2) then
ret.tenMin=1 ret.m10=1
ret.after=1 ret.ha=1
elseif (minutes==3) then elseif (minutes==3) then
ret.quater=1 ret.hq=1
ret.after=1 ret.ha=1
elseif (minutes==4) then elseif (minutes==4) then
ret.twenty=1 ret.m20=1
ret.after=1 ret.ha=1
elseif (minutes==5) then elseif (minutes==5) then
ret.fiveMin=1 ret.m5=1
ret.half=1 ret.half=1
ret.before=1 ret.hb=1
elseif (minutes==6) then elseif (minutes==6) then
ret.half=1 ret.half=1
elseif (minutes==7) then elseif (minutes==7) then
ret.fiveMin=1 ret.m5=1
ret.half=1 ret.half=1
ret.after=1 ret.ha=1
elseif (minutes==8) then elseif (minutes==8) then
ret.twenty=1 ret.m20=1
ret.before=1 ret.hb=1
elseif (minutes==9) then elseif (minutes==9) then
-- Hande if three quater or quater before is displayed -- Hande if three quater or quater before is displayed
if (threequater ~= nil) then if ((threequater ~= nil) and (threequater==true or threequater=="on")) then
ret.threequater=1 ret.h3q=1
else else
ret.quater = 1 ret.hq = 1
ret.before = 1 ret.hb = 1
end end
elseif (minutes==10) then elseif (minutes==10) then
ret.tenMin=1 ret.m10=1
ret.before=1 ret.hb=1
elseif (minutes==11) then elseif (minutes==11) then
ret.fiveMin=1 ret.m5=1
ret.before=1 ret.hb=1
end end
if (minutes > 4) then if (minutes > 4) then
hours=hours+1 hours=hours+1
end end
else else
ret.clock=1 ret.cl=1
end end
-- Display the minutes as as extra gimmic on min1 to min 4 to display the cut number -- Display the minutes as as extra gimmic on m1 to min 4 to display the cut number
if (minutesLeds==1) then if (minutesLeds==1) then
ret.min1=1 ret.m1=1
elseif (minutesLeds==2) then elseif (minutesLeds==2) then
ret.min2=1 ret.m2=1
elseif (minutesLeds==3) then elseif (minutesLeds==3) then
ret.min3=1 ret.m3=1
elseif (minutesLeds==4) then elseif (minutesLeds==4) then
ret.min4=1 ret.m4=1
end end
-- handle hours -- handle hours
@ -106,33 +110,90 @@ function display_timestat(hours, minutes, longmode)
if (hours == 1) then if (hours == 1) then
if ((ret.it == 1) and (ret.half == 0) ) then if ((ret.it == 1) and (ret.half == 0) ) then
ret.one=1 ret.h1=1
else else
ret.oneLong=1 ret.h1l=1
end end
elseif (hours == 2) then elseif (hours == 2) then
ret.two=1 ret.h2=1
elseif (hours == 3) then elseif (hours == 3) then
ret.three=1 ret.h3=1
elseif (hours == 4) then elseif (hours == 4) then
ret.four=1 ret.h4=1
elseif (hours == 5) then elseif (hours == 5) then
ret.five=1 ret.h5=1
elseif (hours == 6) then elseif (hours == 6) then
ret.six=1 ret.h6=1
elseif (hours == 7) then elseif (hours == 7) then
ret.seven=1 ret.h7=1
elseif (hours == 8) then elseif (hours == 8) then
ret.eight=1 ret.h8=1
elseif (hours == 9) then elseif (hours == 9) then
ret.nine=1 ret.h9=1
elseif (hours == 10) then elseif (hours == 10) then
ret.ten=1 ret.h10=1
elseif (hours == 11) then elseif (hours == 11) then
ret.eleven=1 ret.h11=1
elseif (hours == 12) then elseif (hours == 12) then
ret.twelve=1 ret.h12=1
end end
collectgarbage() collectgarbage()
return ret return ret
end end
-- Logic to display Mqtt
function temp(dw, rgbBuffer, invertRows, dispTemp)
if (dispTemp ~= nil) then
-- Values: it, is, 5 minutes, 10 minutes, afer, before, three hour, quarter, dreiviertel, half, s
-- hours: one, one Long, two, three, four, five, six, seven, eight, nine, ten, eleven, twelve
-- Special ones: twenty, clock, minute 1 flag, minute 2 flag, minute 3 flag, minute 4 flag
local ret = { it=0, is=0, m5=0, m10=0, ha=0, hb=0, h3=0, hq=0, h3q=0, half=0, s=0,
h1=0, h1l=0, h2=0, h3=0, h4=0, h5=0, h6=0, h7=0, h8=0, h9=0, h10=0, h11=0, h12=0,
m20=0, cl=0, m1=0, m2=0, m3=0, m4=0 }
print("Mqtt Display of temperature: " .. tostring(dispTemp) )
if (dispTemp == 1) or (dispTemp == -1) then
ret.h1=1
elseif (dispTemp == 2) or (dispTemp == -2) then
ret.h2=1
elseif (dispTemp == 3) or (dispTemp == -3) then
ret.h3=1
elseif (dispTemp == 4) or (dispTemp == -4) then
ret.h4=1
elseif (dispTemp == 5) or (dispTemp == -5) then
ret.h5=1
elseif (dispTemp == 6) or (dispTemp == -6) then
ret.h6=1
elseif (dispTemp == 7) or (dispTemp == -7) then
ret.h7=1
elseif (dispTemp == 8) or (dispTemp == -8) then
ret.h8=1
elseif (dispTemp == 9) or (dispTemp == -9) then
ret.h9=1
elseif (dispTemp == 10) or (dispTemp == -10) then
ret.h10=1
elseif (dispTemp == 11) or (dispTemp == -11) then
ret.h11=1
elseif (dispTemp == 12) or (dispTemp == -12) then
ret.h12=1
else
-- over or under temperature
end
local col=string.char(128,0,0) -- red; positive degrees
if (dispTemp < 0) then
col=string.char(0,0,128) -- blue; negative degrees
end
return ret, col
else
return nil, nil
end
end
-- Pack everything into a module
M = {
timestat = timestat,
temp = temp
}
end
wc = M