From 7201aeb6ba1b63afd95b23b44843acb6985f0ad4 Mon Sep 17 00:00:00 2001
From: kpoppel <poulsen.kim@gmail.com>
Date: Tue, 2 Jul 2013 22:26:45 +0200
Subject: [PATCH] Removed down_converters as they are superseeded by the new
 supply converter.

---
 technic/down_converter_hv.lua | 225 ---------------------------------
 technic/down_converter_mv.lua | 226 ----------------------------------
 2 files changed, 451 deletions(-)
 delete mode 100644 technic/down_converter_hv.lua
 delete mode 100644 technic/down_converter_mv.lua

diff --git a/technic/down_converter_hv.lua b/technic/down_converter_hv.lua
deleted file mode 100644
index 0e2e16d..0000000
--- a/technic/down_converter_hv.lua
+++ /dev/null
@@ -1,225 +0,0 @@
--- The HV down converter will step down HV EUs to MV EUs
--- If we take the solar panel as calibration then the
--- 1 HVEU = 5 MVEU as we stack 5 MV arrays to get a HV array.
--- The downconverter does of course have a conversion loss.
--- This loses 30% of the power.
--- The converter does not store any energy by itself.
-minetest.register_node("technic:down_converter_hv", {
-        description = "HV Down Converter",
-	tiles  = {"technic_hv_down_converter_top.png", "technic_hv_down_converter_bottom.png", "technic_hv_down_converter_side.png",
-		  "technic_hv_down_converter_side.png", "technic_hv_down_converter_side.png", "technic_hv_down_converter_side.png"},
-	groups = {snappy=2,choppy=2,oddly_breakable_by_hand=2},
-	sounds = default.node_sound_wood_defaults(),
-	drawtype = "nodebox",
-	paramtype = "light",
-	is_ground_content = true,
-	node_box = {
-	   type = "fixed",
-	   fixed = {-0.5, -0.5, -0.5, 0.5, 0.5, 0.5},
-	},
-	selection_box = {
-	   type = "fixed",
-	   fixed = {-0.5, -0.5, -0.5, 0.5, 0.5, 0.5},
-	},
-	on_construct = function(pos)
-			  local meta = minetest.env:get_meta(pos)
-			  meta:set_float("technic_hv_power_machine", 1)
-			  meta:set_float("technic_mv_power_machine", 1)
-			  meta:set_float("internal_EU_buffer",0)
-			  meta:set_float("internal_EU_buffer_size",0)
-			  meta:set_string("infotext", "HV Down Converter")
-			  meta:set_float("active", false)
-		       end,
-     })
-
-minetest.register_craft({
-	output = 'technic:down_converter_hv 1',
-	recipe = {
-		{'technic:stainless_steel_ingot', 'technic:stainless_steel_ingot','technic:stainless_steel_ingot'},
-		{'technic:hv_transformer',        'technic:hv_cable',             'technic:mv_transformer'},
-		{'technic:hv_cable',              'technic:rubber',               'technic:mv_cable'},
-	}
-})
-
-minetest.register_abm(
-	{nodenames = {"technic:down_converter_hv"},
-	interval   = 1,
-	chance     = 1,
-	action = function(pos, node, active_object_count, active_object_count_wider)
-		    -- HV->MV conversion factor
-		    local hv_mv_factor = 5
-		    -- The maximun charge a single converter can handle. Let's set this to
-		    -- what 5 HV solar arrays can produce - 30% loss (2880*5*0.7)
-		    local max_charge = 10080*hv_mv_factor
-
-		    local meta             = minetest.env:get_meta(pos)
-		    local meta1            = nil
-		    local pos1             = {}
-		    local available_charge = 0 -- counted in MV units
-		    local used_charge      = 0 -- counted in MV units
-
-		    -- Index all HV nodes connected to the network
-		    -- HV cable comes in through the bottom
-		    pos1.y = pos.y-1
-		    pos1.x = pos.x
-		    pos1.z = pos.z
-		    meta1  = minetest.env:get_meta(pos1)
-		    if meta1:get_float("hv_cablelike")~=1 then return end
-
-		    local HV_nodes    = {} -- HV type
-		    local HV_PR_nodes = {} -- HV type
-		    local HV_BA_nodes = {} -- HV type
-
-		    HV_nodes[1]         = {}
-		    HV_nodes[1].x       = pos1.x
-		    HV_nodes[1].y       = pos1.y
-		    HV_nodes[1].z       = pos1.z
-
-		    local table_index = 1
-		    repeat
-		       check_HV_node(HV_PR_nodes,nil,HV_BA_nodes,HV_nodes,table_index)
-		       table_index = table_index + 1
-		       if HV_nodes[table_index] == nil then break end
-		    until false
-
-		    --print("HV_nodes: PR="..table.getn(HV_PR_nodes).." BA="..table.getn(HV_BA_nodes))
-
-		    -- Index all MV nodes connected to the network
-		    -- MV cable comes out of the top
-		    pos1.y = pos.y+1
-		    pos1.x = pos.x
-		    pos1.z = pos.z
-		    meta1  = minetest.env:get_meta(pos1)
-		    if meta1:get_float("mv_cablelike")~=1 then return end
-
-		    local MV_nodes    = {} -- MV type
-		    local MV_RE_nodes = {} -- MV type
-		    local MV_BA_nodes = {} -- MV type
-
-		    MV_nodes[1]         = {}
-		    MV_nodes[1].x       = pos1.x
-		    MV_nodes[1].y       = pos1.y
-		    MV_nodes[1].z       = pos1.z
-
-		    table_index = 1
-		    repeat
-		       check_MV_node(nil,MV_RE_nodes,MV_BA_nodes,MV_nodes,table_index)
-		       table_index = table_index + 1
-		       if MV_nodes[table_index] == nil then break end
-		    until false
-
-		    --print("MV_nodes: RE="..table.getn(MV_RE_nodes).." BA="..table.getn(MV_BA_nodes))
-
-		    -- First get available power from all the attached HV suppliers
-		    -- Get the supplier internal EU buffer and read the EUs from it
-		    -- No update yet!
-		    local pos1
--- FIXME: Until further leave the producers out of it and just let the batteries be the hub
---		    for _,pos1 in ipairs(HV_PR_nodes) do
---		       meta1  = minetest.env:get_meta(pos1)
---		       local internal_EU_buffer = meta1:get_float("internal_EU_buffer")
---		       available_charge = available_charge + meta1:get_float("internal_EU_buffer") * hv_mv_factor
---		       -- Limit conversion capacity
---		       if available_charge > max_charge then
---			  available_charge = max_charge
---			  break
---		       end
---		    end
---		    --print("Available_charge PR:"..available_charge)
-
-		    for _,pos1 in ipairs(HV_BA_nodes) do
-		       meta1  = minetest.env:get_meta(pos1)
-		       local internal_EU_buffer = meta1:get_float("internal_EU_buffer")
-		       available_charge = available_charge + meta1:get_float("internal_EU_buffer") * hv_mv_factor
-		       -- Limit conversion capacity
-		       if available_charge > max_charge then
-			  available_charge = max_charge
-			  break
-		       end
-		    end
-		    --print("Available_charge PR+BA:"..available_charge)
-
-		    -- Calculate total number of receivers:
-		    local MV_receivers = table.getn(MV_RE_nodes)+table.getn(MV_BA_nodes)
-
-		    -- Next supply power to all connected MV machines
-		    -- Get the power receiver internal EU buffer and give EUs to it
-		    -- Note: for now leave out RE type machines until producers distribute power themselves even without a battery
---		    for _,pos1 in ipairs(MV_RE_nodes) do
---		       local meta1                   = minetest.env:get_meta(pos1)
---		       local internal_EU_buffer      = meta1:get_float("internal_EU_buffer")
---		       local internal_EU_buffer_size = meta1:get_float("internal_EU_buffer_size")
---		       local charge_to_give = math.min(4000, available_charge/MV_receivers) -- power rating limit on the MV wire
---		       -- How much can this unit take?
---		       if internal_EU_buffer+charge_to_give > internal_EU_buffer_size then
---			  charge_to_give=internal_EU_buffer_size-internal_EU_buffer
---		       end
---		       -- If we are emptying the supply take the remainder
---		       if available_charge<used_charge+charge_to_give then charge_to_give=available_charge-used_charge end
---		       -- Update the unit supplied to
---		       internal_EU_buffer = internal_EU_buffer + charge_to_give
---		       meta1:set_float("internal_EU_buffer",internal_EU_buffer)
---		       -- Do the accounting
---		       used_charge = used_charge + charge_to_give
---		       if available_charge == used_charge then break end -- bail out if supply depleted
---		    end
-		    --print("used_charge RE:"..used_charge)
-
-		    for _,pos1 in ipairs(MV_BA_nodes) do
-		       local meta1 = minetest.env:get_meta(pos1)
-		       local internal_EU_buffer      = meta1:get_float("internal_EU_buffer")
-		       local internal_EU_buffer_size = meta1:get_float("internal_EU_buffer_size")
-		       --print("internal_EU_buffer:"..internal_EU_buffer)
-		       --print("internal_EU_buffer_size:"..internal_EU_buffer_size)
-		       local charge_to_give = math.min(math.floor(available_charge/MV_receivers), 4000) -- power rating limit on the MV wire
-		       --print("charge_to_give:"..charge_to_give)
-		       -- How much can this unit take?
-		       if internal_EU_buffer+charge_to_give > internal_EU_buffer_size then
-			  charge_to_give=internal_EU_buffer_size-internal_EU_buffer
-		       end
-		       --print("charge_to_give2:"..charge_to_give)
-		       -- If we are emptying the supply take the remainder
-		       if available_charge<used_charge+charge_to_give then charge_to_give=available_charge-used_charge end
-		       -- Update the unit supplied to
-		       --print("charge_to_give3:"..charge_to_give)
-		       internal_EU_buffer = internal_EU_buffer + charge_to_give
-		       --print("internal_EU_buffer:"..internal_EU_buffer)
-		       meta1:set_float("internal_EU_buffer",internal_EU_buffer)
-		       -- Do the accounting
-		       used_charge = used_charge + charge_to_give
-		       --print("used_charge:"..used_charge)
-		       if available_charge == used_charge then break end -- bail out if supply depleted
-		    end
-		    --print("used_charge RE+BA:"..used_charge)
-
-		    -- Last update the HV suppliers with the actual demand.
-		    -- Get the supplier internal EU buffer and update the EUs from it
-		    -- Note: So far PR nodes left out and only BA nodes are updated
-		    local HV_BA_size = table.getn(HV_BA_nodes)
-		    for _,pos1 in ipairs(HV_BA_nodes) do
-		       meta1  = minetest.env:get_meta(pos1)
-		       local internal_EU_buffer = meta1:get_float("internal_EU_buffer")
-		       local charge_to_take = math.floor(used_charge/HV_BA_size/hv_mv_factor) -- HV units
-		       if internal_EU_buffer-charge_to_take <= 0 then
-			  charge_to_take = internal_EU_buffer
-		       end
-		       if charge_to_take > 0 then
-			  internal_EU_buffer = internal_EU_buffer-charge_to_take
-			  meta1:set_float("internal_EU_buffer",internal_EU_buffer)
-		       end
-		    end
-
-		    if used_charge>0 then
-		       meta:set_string("infotext", "HV Down Converter is active (HV:"..available_charge.."/MV:"..used_charge..")");
-		       meta:set_float("active",1) -- used for setting textures someday maybe
-		    else
-		       meta:set_string("infotext", "HV Down Converter is inactive (HV:"..available_charge.."/MV:"..used_charge..")");
-		       meta:set_float("active",0) -- used for setting textures someday maybe
-		       return
-		    end
-	end,
-})
-
--- This machine does not store energy it receives energy from the HV side and outputs it on the MV side
-register_HV_machine ("technic:down_converter_hv","RE")
-register_MV_machine ("technic:down_converter_hv","PR")
diff --git a/technic/down_converter_mv.lua b/technic/down_converter_mv.lua
deleted file mode 100644
index 1d26630..0000000
--- a/technic/down_converter_mv.lua
+++ /dev/null
@@ -1,226 +0,0 @@
--- The MV down converter will step down MV EUs to LV EUs
--- If we take the solar panel as calibration then the
--- 1 MVEU = 5 LVEU as we stack 5 LV arrays to get an MV array.
--- The downconverter does of course have a conversion loss.
--- This loses 30% of the power.
--- The converter does not store any energy by itself.
-minetest.register_node(
-   "technic:down_converter_mv", {
-      description = "MV Down Converter",
-      tiles  = {"technic_mv_down_converter_top.png", "technic_mv_down_converter_bottom.png", "technic_mv_down_converter_side.png",
-		"technic_mv_down_converter_side.png", "technic_mv_down_converter_side.png", "technic_mv_down_converter_side.png"},
-      groups = {snappy=2,choppy=2,oddly_breakable_by_hand=2},
-      sounds = default.node_sound_wood_defaults(),
-      drawtype = "nodebox",
-      paramtype = "light",
-      is_ground_content = true,
-      node_box = {
-	 type = "fixed",
-	 fixed = {-0.5, -0.5, -0.5, 0.5, 0.5, 0.5},
-      },
-      selection_box = {
-	 type = "fixed",
-	 fixed = {-0.5, -0.5, -0.5, 0.5, 0.5, 0.5},
-      },
-      on_construct = function(pos)
-			local meta = minetest.env:get_meta(pos)
-			meta:set_float("technic_mv_power_machine", 1)
-			meta:set_float("technic_power_machine", 1)
-			meta:set_float("internal_EU_buffer",0)
-			meta:set_float("internal_EU_buffer_size",0)
-			meta:set_string("infotext", "MV Down Converter")
-			  meta:set_float("active", false)
-		       end,
-   })
-
-minetest.register_craft({
-	output = 'technic:down_converter_mv 1',
-	recipe = {
-		{'technic:stainless_steel_ingot', 'technic:stainless_steel_ingot','technic:stainless_steel_ingot'},
-		{'technic:mv_transformer',        'technic:mv_cable',             'technic:lv_transformer'},
-		{'technic:mv_cable',              'technic:rubber',               'technic:lv_cable'},
-	}
-})
-
-minetest.register_abm(
-	{nodenames = {"technic:down_converter_mv"},
-	interval   = 1,
-	chance     = 1,
-	action = function(pos, node, active_object_count, active_object_count_wider)
-		    -- MV->LV conversion factor
-		    local mv_lv_factor = 5
-		    -- The maximun charge a single converter can handle. Let's set this to
-		    -- what 5 MV solar arrays can produce - 30% loss (720*5*0.7)
-		    local max_charge = 2520*mv_lv_factor
-
-		    local meta             = minetest.env:get_meta(pos)
-		    local meta1            = nil
-		    local pos1             = {}
-		    local available_charge = 0 -- counted in LV units
-		    local used_charge      = 0 -- counted in LV units
-
-		    -- Index all MV nodes connected to the network
-		    -- MV cable comes in through the bottom
-		    pos1.y = pos.y-1
-		    pos1.x = pos.x
-		    pos1.z = pos.z
-		    meta1  = minetest.env:get_meta(pos1)
-		    if meta1:get_float("mv_cablelike")~=1 then return end
-
-		    local MV_nodes    = {} -- MV type
-		    local MV_PR_nodes = {} -- MV type
-		    local MV_BA_nodes = {} -- MV type
-
-		    MV_nodes[1]         = {}
-		    MV_nodes[1].x       = pos1.x
-		    MV_nodes[1].y       = pos1.y
-		    MV_nodes[1].z       = pos1.z
-
-		    local table_index = 1
-		    repeat
-		       check_MV_node(MV_PR_nodes,nil,MV_BA_nodes,MV_nodes,table_index)
-		       table_index = table_index + 1
-		       if MV_nodes[table_index] == nil then break end
-		    until false
-
-		    --print("MV_nodes: PR="..table.getn(MV_PR_nodes).." BA="..table.getn(MV_BA_nodes))
-
-		    -- Index all LV nodes connected to the network
-		    -- LV cable comes out of the top
-		    pos1.y = pos.y+1
-		    pos1.x = pos.x
-		    pos1.z = pos.z
-		    meta1  = minetest.env:get_meta(pos1)
-		    if meta1:get_float("cablelike")~=1 then return end
-
-		    local LV_nodes    = {} -- LV type
-		    local LV_RE_nodes = {} -- LV type
-		    local LV_BA_nodes = {} -- LV type
-
-		    LV_nodes[1]         = {}
-		    LV_nodes[1].x       = pos1.x
-		    LV_nodes[1].y       = pos1.y
-		    LV_nodes[1].z       = pos1.z
-
-		    table_index = 1
-		    repeat
-		       check_LV_node(nil,LV_RE_nodes,LV_BA_nodes,LV_nodes,table_index)
-		       table_index = table_index + 1
-		       if LV_nodes[table_index] == nil then break end
-		    until false
-
-		    --print("LV_nodes: RE="..table.getn(LV_RE_nodes).." BA="..table.getn(LV_BA_nodes))
-
-		    -- First get available power from all the attached MV suppliers
-		    -- Get the supplier internal EU buffer and read the EUs from it
-		    -- No update yet!
-		    local pos1
--- FIXME: Until further leave the producers out of it and just let the batteries be the hub
---		    for _,pos1 in ipairs(MV_PR_nodes) do
---		       meta1  = minetest.env:get_meta(pos1)
---		       local internal_EU_buffer = meta1:get_float("internal_EU_buffer")
---		       available_charge = available_charge + meta1:get_float("internal_EU_buffer") * mv_lv_factor
---		       -- Limit conversion capacity
---		       if available_charge > max_charge then
---			  available_charge = max_charge
---			  break
---		       end
---		    end
---		    print("Available_charge PR:"..available_charge)
-
-		    for _,pos1 in ipairs(MV_BA_nodes) do
-		       meta1  = minetest.env:get_meta(pos1)
-		       local internal_EU_buffer = meta1:get_float("internal_EU_buffer")
-		       available_charge = available_charge + meta1:get_float("internal_EU_buffer") * mv_lv_factor
-		       -- Limit conversion capacity
-		       if available_charge > max_charge then
-			  available_charge = max_charge
-			  break
-		       end
-		    end
-		    --print("Available_charge PR+BA:"..available_charge)
-
-		    -- Calculate total number of receivers:
-		    local LV_receivers = table.getn(LV_RE_nodes)+table.getn(LV_BA_nodes)
-
-		    -- Next supply power to all connected LV machines
-		    -- Get the power receiver internal EU buffer and give EUs to it
-		    -- Note: for now leave out RE type machines until producers distribute power themselves even without a battery
---		    for _,pos1 in ipairs(LV_RE_nodes) do
---		       local meta1                   = minetest.env:get_meta(pos1)
---		       local internal_EU_buffer      = meta1:get_float("internal_EU_buffer")
---		       local internal_EU_buffer_size = meta1:get_float("internal_EU_buffer_size")
---		       local charge_to_give = math.min(1000, available_charge/LV_receivers) -- power rating limit on the LV wire
---		       -- How much can this unit take?
---		       if internal_EU_buffer+charge_to_give > internal_EU_buffer_size then
---			  charge_to_give=internal_EU_buffer_size-internal_EU_buffer
---		       end
---		       -- If we are emptying the supply take the remainder
---		       if available_charge<used_charge+charge_to_give then charge_to_give=available_charge-used_charge end
---		       -- Update the unit supplied to
---		       internal_EU_buffer = internal_EU_buffer + charge_to_give
---		       meta1:set_float("internal_EU_buffer",internal_EU_buffer)
---		       -- Do the accounting
---		       used_charge = used_charge + charge_to_give
---		       if available_charge == used_charge then break end -- bail out if supply depleted
---		    end
-		    --print("used_charge RE:"..used_charge)
-
-		    for _,pos1 in ipairs(LV_BA_nodes) do
-		       local meta1 = minetest.env:get_meta(pos1)
-		       local internal_EU_buffer      = meta1:get_float("internal_EU_buffer")
-		       local internal_EU_buffer_size = meta1:get_float("internal_EU_buffer_size")
-		       --print("internal_EU_buffer:"..internal_EU_buffer)
-		       --print("internal_EU_buffer_size:"..internal_EU_buffer_size)
-		       local charge_to_give = math.min(math.floor(available_charge/LV_receivers), 1000) -- power rating limit on the LV wire
-		       --print("charge_to_give:"..charge_to_give)
-		       -- How much can this unit take?
-		       if internal_EU_buffer+charge_to_give > internal_EU_buffer_size then
-			  charge_to_give=internal_EU_buffer_size-internal_EU_buffer
-		       end
-		       --print("charge_to_give2:"..charge_to_give)
-		       -- If we are emptying the supply take the remainder
-		       if available_charge<used_charge+charge_to_give then charge_to_give=available_charge-used_charge end
-		       -- Update the unit supplied to
-		       --print("charge_to_give3:"..charge_to_give)
-		       internal_EU_buffer = internal_EU_buffer + charge_to_give
-		       --print("internal_EU_buffer:"..internal_EU_buffer)
-		       meta1:set_float("internal_EU_buffer",internal_EU_buffer)
-		       -- Do the accounting
-		       used_charge = used_charge + charge_to_give
-		       --print("used_charge:"..used_charge)
-		       if available_charge == used_charge then break end -- bail out if supply depleted
-		    end
-		    --print("used_charge RE+BA:"..used_charge)
-
-		    -- Last update the MV suppliers with the actual demand.
-		    -- Get the supplier internal EU buffer and update the EUs from it
-		    -- Note: So far PR nodes left out and only BA nodes are updated
-		    local MV_BA_size = table.getn(MV_BA_nodes)
-		    for _,pos1 in ipairs(MV_BA_nodes) do
-		       meta1  = minetest.env:get_meta(pos1)
-		       local internal_EU_buffer = meta1:get_float("internal_EU_buffer")
-		       local charge_to_take = math.floor(used_charge/MV_BA_size/mv_lv_factor) -- MV units
-		       if internal_EU_buffer-charge_to_take <= 0 then
-			  charge_to_take = internal_EU_buffer
-		       end
-		       if charge_to_take > 0 then
-			  internal_EU_buffer = internal_EU_buffer-charge_to_take
-			  meta1:set_float("internal_EU_buffer",internal_EU_buffer)
-		       end
-		    end
-
-		    if used_charge>0 then
-		       meta:set_string("infotext", "MV Down Converter is active (MV:"..available_charge.."/LV:"..used_charge..")");
-		       meta:set_float("active",1) -- used for setting textures someday maybe
-		    else
-		       meta:set_string("infotext", "MV Down Converter is inactive (MV:"..available_charge.."/LV:"..used_charge..")");
-		       meta:set_float("active",0) -- used for setting textures someday maybe
-		       return
-		    end
-	end,
-})
-
--- This machine does not store energy it receives energy from the MV side and outputs it on the LV side
-register_MV_machine ("technic:down_converter_mv","RE")
-register_LV_machine ("technic:down_converter_mv","PR")