superior localization

src/main/java/com/hbm/blocks/machine/SoyuzLauncher.java

@@ -36,6 +36,11 @@ public class SoyuzLauncher extends BlockDummyable {
 		
 		return null;
 	}
+
+	@Override
+	public Item getItemDropped(int i, Random rand, int j) {
+		return null;
+	}
 	
 	@Override
 	public boolean onBlockActivated(World world, int x, int y, int z, EntityPlayer player, int side, float hitX, float hitY, float hitZ) {

src/main/java/com/hbm/lib/RefStrings.java

@@ -3,7 +3,7 @@ package com.hbm.lib;
 public class RefStrings {
 	public static final String MODID = "hbm";
 	public static final String NAME = "Hbm's Nuclear Tech Mod";
-	public static final String VERSION = "1.0.27 BETA (3868)";
+	public static final String VERSION = "1.0.27 BETA (3871)";
 	//HBM's Beta Naming Convention:
 	//V T (X)
 	//V -> next release version

src/main/resources/assets/hbm/lang/en_US.lang

@@ -95,38 +95,73 @@ armor.vats=Enemy HUD
 
 book.test.cover=HOW 2 SEX
 book.test.page1=Test Page 1
-book.rbmk.cover=HOW 2 RBMK:$The Basics$of Reactor$Construction
+
+book.rbmk.cover=My first RBMK:$Basics of$building a$reactor
 book.rbmk.title1=Introduction
-book.rbmk.page1=The §lRBMK§r is a fully modular nuclear reactor. Unlike most other reactors, there is no "core", and no size limitations, rather, the behavior and efficiency of the reactor comes from how it is built and how the different pieces interact with each other.
+book.rbmk.page1=§lRBMK§r is fully modular nuclear reactor. Unlike most other reactors, there is no "core" and no size restrictions, rather behavior and efficiency of reactor depends on how it is built and how various parts interact with each other.
 book.rbmk.title2=Heat
-book.rbmk.page2=As the reactor operates, it will generate §lheat§r. Heat will spread between parts, slowly decreasing in the process. The goal is to produce as much heat as possible without melting the reactor, and to move that heat to a §lsteam channel§r which cools the reactor and produces steam.
+book.rbmk.page2=As reactor runs, it will generate §lheat§r. Heat will spread between parts, slowly decreasing in the process. The goal is to generate as much heat as possible without melting the reactor, and to transfer heat into steam passages that cool reactor and produce steam.
 book.rbmk.title3=Fuel Rod
-book.rbmk.page3=The §lfuel rod§r will capture neutron flux, causing the fuel inside the fuel rod to react, giving off neutrons in the process. Neutrons are released in all four cardinal directions with a maximum range of 5 blocks. The amount of neutrons released depends on the §lfuel§r used.
-book.rbmk.title4=Control Rod
-book.rbmk.page4=The §lcontrol rod§r will decrease the amount of neutrons passing though it. Fully inserted, it will block all neutrons, at half insertion, it will only block half. Control rods are used to regulate the reactor's activity and to turn it off.
-book.rbmk.title5=Control Rod - Usage
-book.rbmk.page5=The center of the GUI will display the current rod insertion. The colored buttons on the left will add a control rod to a color group, which is useful to quickly select grouped rods from the §lRBMK console§r. The buttons on the right allow for manual insertion in increments of 25%%.
-book.rbmk.title6=Automatic Control Rod
-book.rbmk.page6=§lAutomatic control rods§r function nearly identical to regular control rods, but they cannot be configured manually, instead they will adjust the rod position based on the current temperature. What function to use and how deep to insert at what temperature has to be defined first.
+book.rbmk.page3=The §lfuel rod§r will capture neutron flux, causing fuel inside the rod to react, releasing neutrons in the process. Neutrons are released in all four main directions with a maximum range of 5 blocks. The amount of released neutrons depends on fuel used.
+book.rbmk.title4=Regulating Rod
+book.rbmk.page4=The §lcontrol rod§r will reduce number of neutrons passing through. Fully inserted, it will block all neutrons; when inserted halfway, it will only block half. Control rods are used to regulate activity of the reactor and shut it down.
+book.rbmk.title5=Regulating Rods - Usage
+book.rbmk.title5.scale=0.9
+book.rbmk.page5=The current bar insertion will be displayed in the center of GUI. The colored buttons on left will add the control bar to the color group, which is useful for quickly selecting grouped bars on §lRBMK§r console. The buttons on right allow you to manually insert in 25%% increments.
+book.rbmk.title6=Automatic Control Rods
+book.rbmk.page6=§LAutomatic control rods§r are almost identical to regular control rods, but they cannot be manually adjusted, instead they will adjust position of the rod based on current temperature. Which function to use and how deep to insert and at what temperature must be determined first.
 book.rbmk.title7=Steam Channel
-book.rbmk.page7=The §lsteam channel§r is the only part that will actively reduce the reactor's heat level. If the component's temperature exceeds the boiling point of the set steam type, it will try to consume as much water and produce as much steam as needed to cool back below the boiling point.
+book.rbmk.page7=The §lsteam channel§r is only part that will actively reduce reactor heat level. If a component is above the boiling point of a given type of steam, it will try to consume as much water and produce as much steam as needed to cool below boiling point.
 book.rbmk.title8=Neutron Reflector
-book.rbmk.page8=The §lneutron reflector§r will block neutrons from passing it, instead the neutrons will be reflected back at the fuel rod they came from. This is useful for utilizing neutrons that would otherwise be wasted by simply exiting the reactor.
+book.rbmk.page8=The §lneutron reflector§r will block passage of neutrons, instead neutrons will be reflected back onto the fuel rod they came from. This is useful for using neutrons that would otherwise be wasted simply by leaving reactor.
 book.rbmk.title9=Neutron Absorber
-book.rbmk.page9=The §lneutron absorber§r will simply block neutrons. Neutrons absorbed will not generate heat and be effectively voided. This is useful to prevent fuel rods from reacting that would otherwise be in range.
-book.rbmk.title10=Graphite Moderator
-book.rbmk.page10=The §lgraphite moderator§r will convert fast neutrons passing through it into slow neutrons. Most fuels fission into fast neutrons while needing slow neutrons to split, so using moderators is strongly recommended.
+book.rbmk.page9=§lNeutron absorber§r simply blocks neutrons. The absorbed neutrons will not generate heat and will be effectively destroyed. This is useful for preventing fuel rods from reacting that would otherwise be within reach.
+book.rbmk.title10=Graphite Retarder
+book.rbmk.page10=§lGraphite moderator§r converts fast neutrons passing through it into slow neutrons. Most fuels are split into fast neutrons, while slow neutrons are required for fission, so use of moderators is highly recommended.
 book.rbmk.title11=Structural Column
-book.rbmk.page11=The §lstructural column§r will not interfere with neutrons, nor does it have special uses. It is recommended to fill the reactor with structural columns where no other parts will be, because structural columns are capable of transporting heat.
+book.rbmk.page11=§lStructural column§r does not affect neutrons in any way and has no special application. It is recommended to fill the reactor with structured pillars where there are no other parts, since the structured pillars are capable of transferring heat.
 book.rbmk.title12=Console
-book.rbmk.page12=The §lRBMK console§r lets you control the reactor from afar. Using the §lRBMK§r §lconsole linking device§r on an RBMK part and then the console will link the reactor to the console. The console can only manage 15x15 parts, for larger reactors you might want to use multiple consoles.
-book.rbmk.title13=Console Usage
-book.rbmk.page13=Clicking on the parts will select and deselect them. Using the colored buttons, you can quickly select all control rods of that color group. Button 'A' will select all control rods, 'X' will deselect all.
-book.rbmk.page14=Entering a number 0-100 in the green box and then hitting the button next to it will set all selected control rods to this position. Button 'AZ-5' will cause all control rods to fully insert.
+book.rbmk.page12=§lRBMK console§r allows you to control the reactor from afar. Using the §ldevice to connect the console RBMK§r on the RBMK part and then on the console will connect the reactor and the console. The console can only control 15x15 parts, for large reactors you can use multiple consoles.
+book.rbmk.title13=Using the console
+book.rbmk.page13=Clicking on parts will select and deselect them. With the colored buttons, you can quickly select all the control rods in that color group. Button "A" will select all control rods, "X" will deselect all.
+book.rbmk.page14=Entering a number between 0 and 100 in green box and then pressing button next to it will set all selected control rods to that position. Button "AZ-5" will lead to full insertion of all control rods.
 book.rbmk.title15=Fuel
-book.rbmk.page15=The §lfuel§r's reactivity is based on multiple factors. The main ones are the §lenrichment§r, §lxenon poison§r and the amount of incoming §lneutrons§r. Xenon builds up when the fuel receives few neutrons and burns away during normal operation. The effectivity of neutrons depends on the type, most fuels §lsplit best with slow neutrons§r.
-book.rbmk.title16=Meltdown
-book.rbmk.page16=§4§lAvoid.
+book.rbmk.page15=The §lfuel§r response depends on many factors. The main ones are §lfortification§r, §lxenon poisoning§r and number of incoming §lneutrons§r. Xenon builds up when fuel is low in neutrons and burns out during normal operation. The efficiency of neutrons depends on the type, most fuels §lare best split by§r §lslow neutrons§r.
+book.rbmk.title16=Melting
+book.rbmk.page16=§4§lAVOID.
+
+#book.rbmk.cover=HOW 2 RBMK:$The Basics$of Reactor$Construction
+#book.rbmk.title1=Introduction
+#book.rbmk.page1=The §lRBMK§r is a fully modular nuclear reactor. Unlike most other reactors, there is no "core", and no size limitations, rather, the behavior and efficiency of the reactor comes from how it is built and how the different pieces interact with each other.
+#book.rbmk.title2=Heat
+#book.rbmk.page2=As the reactor operates, it will generate §lheat§r. Heat will spread between parts, slowly decreasing in the process. The goal is to produce as much heat as possible without melting the reactor, and to move that heat to a §lsteam channel§r which cools the reactor and produces steam.
+#book.rbmk.title3=Fuel Rod
+#book.rbmk.page3=The §lfuel rod§r will capture neutron flux, causing the fuel inside the fuel rod to react, giving off neutrons in the process. Neutrons are released in all four cardinal directions with a maximum range of 5 blocks. The amount of neutrons released depends on the §lfuel§r used.
+#book.rbmk.title4=Control Rod
+#book.rbmk.page4=The §lcontrol rod§r will decrease the amount of neutrons passing though it. Fully inserted, it will block all neutrons, at half insertion, it will only block half. Control rods are used to regulate the reactor's activity and to turn it off.
+#book.rbmk.title5=Control Rod - Usage
+#book.rbmk.page5=The center of the GUI will display the current rod insertion. The colored buttons on the left will add a control rod to a color group, which is useful to quickly select grouped rods from the §lRBMK console§r. The buttons on the right allow for manual insertion in increments of 25%%.
+#book.rbmk.title6=Automatic Control Rod
+#book.rbmk.page6=§lAutomatic control rods§r function nearly identical to regular control rods, but they cannot be configured manually, instead they will adjust the rod position based on the current temperature. What function to use and how deep to insert at what temperature has to be defined first.
+#book.rbmk.title7=Steam Channel
+#book.rbmk.page7=The §lsteam channel§r is the only part that will actively reduce the reactor's heat level. If the component's temperature exceeds the boiling point of the set steam type, it will try to consume as much water and produce as much steam as needed to cool back below the boiling point.
+#book.rbmk.title8=Neutron Reflector
+#book.rbmk.page8=The §lneutron reflector§r will block neutrons from passing it, instead the neutrons will be reflected back at the fuel rod they came from. This is useful for utilizing neutrons that would otherwise be wasted by simply exiting the reactor.
+#book.rbmk.title9=Neutron Absorber
+#book.rbmk.page9=The §lneutron absorber§r will simply block neutrons. Neutrons absorbed will not generate heat and be effectively voided. This is useful to prevent fuel rods from reacting that would otherwise be in range.
+#book.rbmk.title10=Graphite Moderator
+#book.rbmk.page10=The §lgraphite moderator§r will convert fast neutrons passing through it into slow neutrons. Most fuels fission into fast neutrons while needing slow neutrons to split, so using moderators is strongly recommended.
+#book.rbmk.title11=Structural Column
+#book.rbmk.page11=The §lstructural column§r will not interfere with neutrons, nor does it have special uses. It is recommended to fill the reactor with structural columns where no other parts will be, because structural columns are capable of transporting heat.
+#book.rbmk.title12=Console
+#book.rbmk.page12=The §lRBMK console§r lets you control the reactor from afar. Using the §lRBMK§r §lconsole linking device§r on an RBMK part and then the console will link the reactor to the console. The console can only manage 15x15 parts, for larger reactors you might want to use multiple consoles.
+#book.rbmk.title13=Console Usage
+#book.rbmk.page13=Clicking on the parts will select and deselect them. Using the colored buttons, you can quickly select all control rods of that color group. Button 'A' will select all control rods, 'X' will deselect all.
+#book.rbmk.page14=Entering a number 0-100 in the green box and then hitting the button next to it will set all selected control rods to this position. Button 'AZ-5' will cause all control rods to fully insert.
+#book.rbmk.title15=Fuel
+#book.rbmk.page15=The §lfuel§r's reactivity is based on multiple factors. The main ones are the §lenrichment§r, §lxenon poison§r and the amount of incoming §lneutrons§r. Xenon builds up when the fuel receives few neutrons and burns away during normal operation. The effectivity of neutrons depends on the type, most fuels §lsplit best with slow neutrons§r.
+#book.rbmk.title16=Meltdown
+#book.rbmk.page16=§4§lAvoid.
 
 chem.ASPHALT=Asphalt Production
 chem.BALEFIRE=BF Rocket Fuel Mixing

src/main/resources/mcmod.info

@@ -3,7 +3,7 @@
   "modid": "hbm",
   "name": "Hbm's Nuclear Tech",
   "description": "A mod that adds weapons, nuclear themed stuff and machines",
-  "version":"1.0.27-3868",
+  "version":"1.0.27-3871",
   "mcversion": "1.7.10",
   "url": "",
   "updateUrl": "",