Differences

This shows you the differences between two versions of the page.

--- useful_programs [2020/01/10 09:33] – [Universal Timer (TON / TOFF)] emozolyak
+++ useful_programs [2020/03/20 10:06] – [3-point control for a valve or servo] emozolyak
@@ Line 140: / Line 140: @@
 <code lua>
-function DBG( ...) -- ... accepts multiple arguments in a table arg
+function DBG(...)
+local tc = tabToStr
-local table_sign = '|' -- if there is divider sign, the values will be grouped in 2 rows
-local table_sign_found = false
+function align2s(s1, s2) -- appends space to smaller string
-local tab_s_index = 0
+    local d, s = (#s1 - #s2), ' ' ; local ad = math.abs(d)
-if ENABLE_DEBUG then -- should be global in the calling script
-    -- find divider
-    for i = 1, #arg do
-        if arg[i] == table_sign then
-            table_sign_found = true
-            tab_s_index = i
-            break
-        end
-    end
-    if not table_sign_found then
+    if (d ~= 0) then
-        INFO(tabToStr(arg)) -- outputs table values in a single row
-    else
-        local header_t, value_t = {}, {} -- prepare header and value rows
-        for k = 1, tab_s_index - 1 do
-            header_t[k] = arg[k]
-        end
-        for j = tab_s_index + 1, #arg do
-            value_t[j - tab_s_index] = tostring(arg[j])
-        end
-        if (#header_t ~= #value_t) then
+        local Lp, Rp = 0, 0
-             ERROR("column count differs!")
+        if ((ad % 2) == 0) then
+            Lp = ad / 2 ; Rp = Lp ; INFO("even parts, L R = " .. Lp .. s .. Rp)
         else
-            for g = 1, #header_t do
+            Lp = math.floor(ad / 2) ; Rp = Lp + 1 ; INFO("not even L R " .. Lp .. s .. Rp)
-                local delta = #header_t[g] - #value_t[g] -- makes aligment by adding spaces to shorter strings...
-                if delta ~= 0 then
-                    if (delta > 0) then
-                        value_t[g] = value_t[g] .. string.rep(' ', delta)
-                    else
-                        header_t[g] = header_t[g] .. string.rep(' ', math.abs(delta))
-                    end
-                end
-            end -- for
-            INFO(tabToStr(header_t)) ; INFO(tabToStr(value_t))
         end
+        return (((d > 0) and {s1, s:rep(Lp) .. s2 .. s:rep(Rp)})
+                        or
+             ({s:rep(Lp) .. s1 .. s:rep(Rp), s2}))
+    else
+        return {s1, s2}
     end
-end -- if ENABLE_DEBUG
+end
-return true
-end -- DBG
+    if ENABLE_DEBUG then
+        local arg_str = tc(arg)
+        local t_s_pos = string.find(arg_str, "|")
+        if not t_s_pos then
+            INFO(arg_str)  -- Just printing single line
+        else
+            local h_row, v_row = {}, {}
+            -- header
+            for w in string.gmatch(arg[1], "%S+") do
+                h_row[#h_row + 1] = w
+            end
+            -- values
+            for i = 3, #arg do
+                v_row[#v_row + 1] = tostring(arg[i])
+            end
+            if (#h_row ~= #v_row) then
+                ERROR("Inconsistent header and value rows in DBG!")
+                INFO("h_row:" .. tc(h_row)) ; INFO("v_row" .. tc("v_row"))
+                return
+            else
+                for g = 1, #h_row do
+                    h_row[g], v_row[g] = unpack(align2s(h_row[g], v_row[g]))
+                end
+            end
+            INFO(tc(h_row)) ; INFO(tc(v_row))
+        end
+    end
+end
 function tabToStr(t)  -- glue all and add spaces, use tostring to protect from nil and bool argument
     local s = ""
     for i = 1, #t do
-        s = s .. tostring(t[i]) .. ' '
+        local e = t[i] ; if (e == nil) then e = 'nil' end
+        s = s .. tostring(e) .. ' '
     end -- for
     return s
 end
 </code>
@@ Line 603: / Line 608: @@
 To determine intermediate positions, a calculated value is used, determined from the characteristics of the 'full path time', which can also be determined experimentally.
-Below is a variant of 3-point control for a valve with 2 limit switches.
+Below is a variant of 3-point control for a valve withoutlimit switches.
 <code lua>
-function main (userId)
+function valveControl(v)
+    local FULL_PATH_TIME = R(v .. "pathTime") ; local KOEF = 100 / FULL_PATH_TIME
+    local HOMING_DELAY = R(v .. "homingDelay") * 60 * 60 -- get seconds from hours
-       -- copy desired Tfeed to valve PID target temp.
+    local auto, autoOpenCmd, autoCloseCmd, now =
-    W ( "HeatDistribution.targetTemperature",  R ( "recalcFeedTemp" ))
+          TRUE("auto_mode"), TRUE(v .. "openCmd"), TRUE(v .. "closeCmd"), os.time()
+local motionTmr = function() -- calc. path quant passed from last call
-now = os.time() -- global
+    local quant = 0
+    if (autoOpenCmd or autoCloseCmd) then
+          quant = (now - R(v .. "motionTmr")) * KOEF ; SET(v .. "valveStatus") -- opening
+          if autoCloseCmd  then
+              quant = quant * (-1)          -- closing
+              UpdReg(v .. "valveStatus", 2)
+          end
+    else
+          RESET(v .. "valveStatus")
+          quant = 0
+    end  -- if motion
+    UpdReg(v .. "motionTmr", now)     -- запомнить время последнего вызова
+    return quant
+end -- motionTmr
-local manOpenCmd, manCloseCmd = R("manOpenCmd"), R("manCloseCmd")     -- manual run flags
+    local pos = Limiter(Round(R(v .. "curPosition")) + motionTmr(), 0, 100)
-local autoOpenCmd, autoCloseCmd = R("autoOpenCmd"), R("autoCloseCmd") -- cmds to control valve
+    local sp = R(v .. "posSetpoint")
-local openSw, closeSw = (R("valveOpenSw") == 1) , (R("valveCloseSw") == 1)
-local pullUpFlag, pullDownFlag = (R("pullUpFlag") == 1 ), (R("pullDownFlag") == 1 )  ;
-local curPosition = Round(R("valveCurPos") + MotionTimer(autoOpenCmd, autoCloseCmd, "Tmr5")) ; DEBUG("curPosition calc. as "..curPosition)
-                -- filtering cur position and check limit sw
-if (curPosition >= 100) or openSw then
-    curPosition = 100
-        if openSw then
-            W ("pullUpFlag", 1 )
-            pullUpFlag = true
-        end
-end
-if ((curPosition < 0) or closeSw) then
-    curPosition = 0
-        if closeSw then
-            W ("pullDownFlag", 1 )
-            pullDownFlag = true
-        end
-end
-                            -- pulling
-if (curPosition == 100) and not (openSw) and not pullUpFlag then
-    curPosition = 99  ;                                             DEBUG(" pulling up")
-end
-if (curPosition == 0 ) and not (closeSw) and not pullDownFlag then
-    curPosition = 1   ;                                             DEBUG(" pulling down")
-end
-W ("valveCurPos", curPosition) -- renew current position
-                                    -- AUTO MODE ----
-local valveSp = R ( "valveSp" )  ;                                     DEBUG("valveSp  "..valveSp)
-local positionError = (curPosition - valveSp)
-if (positionError ~= 0) and ( autoOpenCmd ~= 1) and (autoCloseCmd ~= 1) then
-    -- reset pulling flags befor start
-    W ("pullDownFlag" , 0 ); W ("pullUpFlag", 0)
-end
-if ( R ( "distribAutoMode") == 1) then
-    W ("manOpenCmd", 0 ) -- clear manual cmds
+    local uShoot, oShoot = (pos < sp), (pos > sp)
-    W ("manCloseCmd", 0)
-    if (positionError == 0)  then
+    local homingOut = TRUE(v .. "homingTmr_out")
-        W ("autoOpenCmd", 0 )
+    local homing = Timer(not homingOut, HOMING_DELAY, FULL_PATH_TIME * 2, v .. "homingTmr")
-        W ("autoCloseCmd", 0)
+    if not homingOut and homing then
-    elseif (positionError > 0)   then
+        AddInfoMessage("Started homing for valve " .. v)
-                                    DEBUG("GO DOWN because positionError = "..positionError) ; DEBUG(" math.abs error <= 0.5 "..math.abs(positionError))
-        W ("autoOpenCmd", 0 )
-        W ("autoCloseCmd", 1) -- GO DOWN
-    elseif (positionError < 0)  then
-                                    DEBUG("GO UP because positionError = "..positionError) ; DEBUG(" math.abs error <= 0.5 "..math.abs(positionError))
-        W ("autoOpenCmd", 1 ) -- GO UP
-        W ("autoCloseCmd", 0)
-    else
-                                    DEBUG("Undefined if !!! in valve control ")
     end
-                                  --- MANUAL MODE -----
-else
-                                  -- just copy manual cmd to valve auto cmd
-    W ("autoOpenCmd", manOpenCmd )
-    W ("autoCloseCmd", manCloseCmd)
-     if not openSw then
+    OUT(auto and uShoot and not homing or (not auto and TRUE(v .. "manOpenCmd")), v .. "openCmd")
-        W ("autoOpenCmd", manOpenCmd )
+    OUT(auto and oShoot or homing or (not auto and TRUE(v .. "manCloseCmd")),  v .. "closeCmd")
-    else
+    UpdReg(v .. "curPosition", pos)
-        W ("manOpenCmd", 0 )
-        W ("autoOpenCmd", 0 )
-        W ("valveCurPos", 100) -- renew position after open limit sw
-    end
-    if not closeSw then
-        W ("autoCloseCmd", manCloseCmd)
-    else
-        W ("manCloseCmd", 0)
-        W ("autoCloseCmd", 0)
-        W ("valveCurPos", 0) -- renew position after close limit sw
-    end
-end
-end -- main
-function MotionTimer(openCmd, downCmd, tmrAlias)
-local FULL_PATH_TIME = 180 -- sec. full path time
-local KOEF = 100 / FULL_PATH_TIME
-local quant = 0
---[[                 bool        string
-remembers start time
-recalc. micro path from the previous call if was in motion
-adds micro path to current position
---                                                  open = true                                       ]]
-    local motion = { flag = ((openCmd == 1) or (downCmd == 1)), dir = (openCmd == 1), lastTimeStamp = R(tmrAlias)}
-    DEBUG(" motion.flag = "..tostring(motion.flag).." dir  "..tostring(motion.dir)..os.date("%c", lastTimeStamp))
-    local outAlias = tmrAlias.."_out"
-    local curTmrState = (R(outAlias) == 1) ; DEBUG("cur "..tmrAlias.." State =  "..tostring(curTmrState))
-    if motion.flag then
-      quant = (now - R(tmrAlias)) * KOEF
-          if not motion.dir then
-              quant = quant * (-1)
-          end
-                                                     DEBUG("quant calculated as = "..quant)
-      W (outAlias, 1) -- "in motion" flag
-    else
-                    DEBUG("no motion lasts = ")
-      W (outAlias, 0)
-      quant = 0
-    end  -- if
-W (tmrAlias, now)     -- rememeber last call time
+    DBG("auto sp pos autoOpenCmd autoCloseCmd uShoot oShoot ", '|',
-return quant
+           auto, sp, Round(pos, 1), autoOpenCmd, autoCloseCmd, uShoot, oShoot)
+end
-end -- function
 </code>