package appeng.parts.networking; import io.netty.buffer.ByteBuf; import java.io.IOException; import java.util.EnumSet; import net.minecraft.client.renderer.RenderBlocks; import net.minecraft.client.renderer.Tessellator; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.item.ItemStack; import net.minecraft.tileentity.TileEntity; import net.minecraft.util.IIcon; import net.minecraftforge.common.util.ForgeDirection; import org.lwjgl.opengl.GL11; import appeng.api.AEApi; import appeng.api.config.SecurityPermissions; import appeng.api.implementations.parts.IPartCable; import appeng.api.networking.GridFlags; import appeng.api.networking.IGridConnection; import appeng.api.networking.IGridHost; import appeng.api.networking.IGridNode; import appeng.api.parts.BusSupport; import appeng.api.parts.IPart; import appeng.api.parts.IPartCollsionHelper; import appeng.api.parts.IPartHost; import appeng.api.parts.IPartRenderHelper; import appeng.api.util.AECableType; import appeng.api.util.AEColor; import appeng.api.util.IReadOnlyCollection; import appeng.block.AEBaseBlock; import appeng.client.texture.CableBusTextures; import appeng.client.texture.FlipableIcon; import appeng.client.texture.TaughtIcon; import appeng.items.parts.ItemMultiPart; import appeng.me.GridAccessException; import appeng.me.helpers.AENetworkProxy; import appeng.parts.AEBasePart; import appeng.util.Platform; import cpw.mods.fml.relauncher.Side; import cpw.mods.fml.relauncher.SideOnly; public class PartCable extends AEBasePart implements IPartCable { int channelsOnSide[] = new int[] { 0, 0, 0, 0, 0, 0 }; EnumSet connections = EnumSet.noneOf( ForgeDirection.class ); boolean powered = false; public PartCable(Class c, ItemStack is) { super( c, is ); proxy.setIdlePowerUsage( 0.0 ); proxy.myColor = AEColor.values()[((ItemMultiPart) is.getItem()).varientOf( is.getItemDamage() )]; } @Override public BusSupport supportsBuses() { return BusSupport.CABLE; } public IIcon getGlassTexture(AEColor c) { switch (c) { case Black: return CableBusTextures.MECable_Black.getIcon(); case Blue: return CableBusTextures.MECable_Blue.getIcon(); case Brown: return CableBusTextures.MECable_Brown.getIcon(); case Cyan: return CableBusTextures.MECable_Cyan.getIcon(); case Gray: return CableBusTextures.MECable_Grey.getIcon(); case Green: return CableBusTextures.MECable_Green.getIcon(); case LightBlue: return CableBusTextures.MECable_LightBlue.getIcon(); case LightGray: return CableBusTextures.MECable_LightGrey.getIcon(); case Lime: return CableBusTextures.MECable_Lime.getIcon(); case Magenta: return CableBusTextures.MECable_Magenta.getIcon(); case Orange: return CableBusTextures.MECable_Orange.getIcon(); case Pink: return CableBusTextures.MECable_Pink.getIcon(); case Purple: return CableBusTextures.MECable_Purple.getIcon(); case Red: return CableBusTextures.MECable_Red.getIcon(); case White: return CableBusTextures.MECable_White.getIcon(); case Yellow: return CableBusTextures.MECable_Yellow.getIcon(); default: } return AEApi.instance().parts().partCableGlass.item( AEColor.Transparent ).getIconIndex( AEApi.instance().parts().partCableGlass.stack( AEColor.Transparent, 1 ) ); } public IIcon getTexture(AEColor c) { return getGlassTexture( c ); } public IIcon getCoveredTexture(AEColor c) { switch (c) { case Black: return CableBusTextures.MECovered_Black.getIcon(); case Blue: return CableBusTextures.MECovered_Blue.getIcon(); case Brown: return CableBusTextures.MECovered_Brown.getIcon(); case Cyan: return CableBusTextures.MECovered_Cyan.getIcon(); case Gray: return CableBusTextures.MECovered_Gray.getIcon(); case Green: return CableBusTextures.MECovered_Green.getIcon(); case LightBlue: return CableBusTextures.MECovered_LightBlue.getIcon(); case LightGray: return CableBusTextures.MECovered_LightGrey.getIcon(); case Lime: return CableBusTextures.MECovered_Lime.getIcon(); case Magenta: return CableBusTextures.MECovered_Magenta.getIcon(); case Orange: return CableBusTextures.MECovered_Orange.getIcon(); case Pink: return CableBusTextures.MECovered_Pink.getIcon(); case Purple: return CableBusTextures.MECovered_Purple.getIcon(); case Red: return CableBusTextures.MECovered_Red.getIcon(); case White: return CableBusTextures.MECovered_White.getIcon(); case Yellow: return CableBusTextures.MECovered_Yellow.getIcon(); default: } return AEApi.instance().parts().partCableCovered.item( AEColor.Transparent ).getIconIndex( AEApi.instance().parts().partCableCovered.stack( AEColor.Transparent, 1 ) ); } public IIcon getSmartTexture(AEColor c) { switch (c) { case Black: return CableBusTextures.MESmart_Black.getIcon(); case Blue: return CableBusTextures.MESmart_Blue.getIcon(); case Brown: return CableBusTextures.MESmart_Brown.getIcon(); case Cyan: return CableBusTextures.MESmart_Cyan.getIcon(); case Gray: return CableBusTextures.MESmart_Gray.getIcon(); case Green: return CableBusTextures.MESmart_Green.getIcon(); case LightBlue: return CableBusTextures.MESmart_LightBlue.getIcon(); case LightGray: return CableBusTextures.MESmart_LightGrey.getIcon(); case Lime: return CableBusTextures.MESmart_Lime.getIcon(); case Magenta: return CableBusTextures.MESmart_Magenta.getIcon(); case Orange: return CableBusTextures.MESmart_Orange.getIcon(); case Pink: return CableBusTextures.MESmart_Pink.getIcon(); case Purple: return CableBusTextures.MESmart_Purple.getIcon(); case Red: return CableBusTextures.MESmart_Red.getIcon(); case White: return CableBusTextures.MESmart_White.getIcon(); case Yellow: return CableBusTextures.MESmart_Yellow.getIcon(); default: } return AEApi.instance().parts().partCableCovered.item( AEColor.Transparent ).getIconIndex( AEApi.instance().parts().partCableSmart.stack( AEColor.Transparent, 1 ) ); } @Override public AEColor getCableColor() { return proxy.myColor; } @Override public AECableType getCableConnectionType() { return AECableType.GLASS; } public AENetworkProxy getProxy() { return proxy; } public void markForUpdate() { getHost().markForUpdate(); } @Override public void writeToStream(ByteBuf data) throws IOException { int cs = 0; int sideOut = 0; IGridNode n = getGridNode(); if ( n != null ) { for (ForgeDirection thisSide : ForgeDirection.VALID_DIRECTIONS) { IPart part = getHost().getPart( thisSide ); if ( part != null ) { if ( part.getGridNode() != null ) { IReadOnlyCollection set = part.getGridNode().getConnections(); for (IGridConnection gc : set) { if ( proxy.getNode().hasFlag( GridFlags.TIER_2_CAPACITY ) && gc.getOtherSide( proxy.getNode() ).hasFlag( GridFlags.TIER_2_CAPACITY ) ) sideOut |= (gc.getUsedChannels() / 4) << (4 * thisSide.ordinal()); else sideOut |= (gc.getUsedChannels()) << (4 * thisSide.ordinal()); } } } } for (IGridConnection gc : n.getConnections()) { ForgeDirection side = gc.getDirection( n ); if ( side != ForgeDirection.UNKNOWN ) { boolean isTier2a = proxy.getNode().hasFlag( GridFlags.TIER_2_CAPACITY ); boolean isTier2b = gc.getOtherSide( proxy.getNode() ).hasFlag( GridFlags.TIER_2_CAPACITY ); if ( isTier2a && isTier2b ) sideOut |= (gc.getUsedChannels() / 4) << (4 * side.ordinal()); else sideOut |= gc.getUsedChannels() << (4 * side.ordinal()); cs |= (1 << side.ordinal()); } } } try { if ( proxy.getEnergy().isNetworkPowered() ) cs |= (1 << ForgeDirection.UNKNOWN.ordinal()); } catch (GridAccessException e) { // aww... } data.writeByte( (byte) cs ); data.writeInt( sideOut ); } @Override public boolean readFromStream(ByteBuf data) throws IOException { int cs = data.readByte(); int sideOut = data.readInt(); EnumSet myC = connections.clone(); boolean wasPowered = powered; powered = false; boolean chchanged = false; for (ForgeDirection d : ForgeDirection.values()) { if ( d != ForgeDirection.UNKNOWN ) { int ch = (sideOut >> (d.ordinal() * 4)) & 0xF; if ( ch != channelsOnSide[d.ordinal()] ) { chchanged = true; channelsOnSide[d.ordinal()] = ch; } } if ( d == ForgeDirection.UNKNOWN ) { int id = 1 << d.ordinal(); if ( id == (cs & id) ) powered = true; } else { int id = 1 << d.ordinal(); if ( id == (cs & id) ) connections.add( d ); else connections.remove( d ); } } return !myC.equals( connections ) || wasPowered != powered || chchanged; } @Override public void getBoxes(IPartCollsionHelper bch) { bch.addBox( 6.0, 6.0, 6.0, 10.0, 10.0, 10.0 ); if ( Platform.isServer() ) { IGridNode n = getGridNode(); if ( n != null ) connections = n.getConnectedSides(); else connections.clear(); } IPartHost ph = getHost(); if ( ph != null ) { for (ForgeDirection dir : ForgeDirection.VALID_DIRECTIONS) { IPart p = ph.getPart( dir ); if ( p instanceof IGridHost ) { double dist = p.cableConnectionRenderTo(); if ( dist > 8 ) continue; switch (dir) { case DOWN: bch.addBox( 6.0, dist, 6.0, 10.0, 6.0, 10.0 ); break; case EAST: bch.addBox( 10.0, 6.0, 6.0, 16.0 - dist, 10.0, 10.0 ); break; case NORTH: bch.addBox( 6.0, 6.0, dist, 10.0, 10.0, 6.0 ); break; case SOUTH: bch.addBox( 6.0, 6.0, 10.0, 10.0, 10.0, 16.0 - dist ); break; case UP: bch.addBox( 6.0, 10.0, 6.0, 10.0, 16.0 - dist, 10.0 ); break; case WEST: bch.addBox( dist, 6.0, 6.0, 6.0, 10.0, 10.0 ); break; default: continue; } } } } for (ForgeDirection of : connections) { switch (of) { case DOWN: bch.addBox( 6.0, 0.0, 6.0, 10.0, 6.0, 10.0 ); break; case EAST: bch.addBox( 10.0, 6.0, 6.0, 16.0, 10.0, 10.0 ); break; case NORTH: bch.addBox( 6.0, 6.0, 0.0, 10.0, 10.0, 6.0 ); break; case SOUTH: bch.addBox( 6.0, 6.0, 10.0, 10.0, 10.0, 16.0 ); break; case UP: bch.addBox( 6.0, 10.0, 6.0, 10.0, 16.0, 10.0 ); break; case WEST: bch.addBox( 0.0, 6.0, 6.0, 6.0, 10.0, 10.0 ); break; default: continue; } } } @Override @SideOnly(Side.CLIENT) public void renderInventory(IPartRenderHelper rh, RenderBlocks renderer) { GL11.glTranslated( -0.0, -0.0, 0.3 ); rh.setTexture( getTexture( getCableColor() ) ); rh.setBounds( 6.0f, 6.0f, 2.0f, 10.0f, 10.0f, 14.0f ); rh.renderInventoryBox( renderer ); rh.setTexture( null ); } @Override @SideOnly(Side.CLIENT) public IIcon getBreakingTexture() { return getTexture( getCableColor() ); } @SideOnly(Side.CLIENT) public void rendereGlassConection(int x, int y, int z, IPartRenderHelper rh, RenderBlocks renderer, ForgeDirection of) { TileEntity te = this.tile.getWorldObj().getTileEntity( x + of.offsetX, y + of.offsetY, z + of.offsetZ ); IPartHost ccph = te instanceof IPartHost ? (IPartHost) te : null; IGridHost gh = te instanceof IGridHost ? (IGridHost) te : null; rh.setFacesToRender( EnumSet.complementOf( EnumSet.of( of ) ) ); if ( gh != null && ccph != null && gh.getCableConnectionType( of ) == AECableType.GLASS && ccph.getColor() != AEColor.Transparent && ccph.getPart( of.getOpposite() ) == null ) rh.setTexture( getTexture( ccph.getColor() ) ); else if ( ccph == null && gh != null && gh.getCableConnectionType( of ) != AECableType.GLASS ) { rh.setTexture( getCoveredTexture( getCableColor() ) ); switch (of) { case DOWN: rh.setBounds( 5, 0, 5, 11, 4, 11 ); break; case EAST: rh.setBounds( 12, 5, 5, 16, 11, 11 ); break; case NORTH: rh.setBounds( 5, 5, 0, 11, 11, 4 ); break; case SOUTH: rh.setBounds( 5, 5, 12, 11, 11, 16 ); break; case UP: rh.setBounds( 5, 12, 5, 11, 16, 11 ); break; case WEST: rh.setBounds( 0, 5, 5, 4, 11, 11 ); break; default: return; } rh.renderBlock( x, y, z, renderer ); rh.setTexture( getTexture( getCableColor() ) ); } else rh.setTexture( getTexture( getCableColor() ) ); switch (of) { case DOWN: rh.setBounds( 6, 0, 6, 10, 6, 10 ); break; case EAST: rh.setBounds( 10, 6, 6, 16, 10, 10 ); break; case NORTH: rh.setBounds( 6, 6, 0, 10, 10, 6 ); break; case SOUTH: rh.setBounds( 6, 6, 10, 10, 10, 16 ); break; case UP: rh.setBounds( 6, 10, 6, 10, 16, 10 ); break; case WEST: rh.setBounds( 0, 6, 6, 6, 10, 10 ); break; default: return; } rh.renderBlock( x, y, z, renderer ); rh.setFacesToRender( EnumSet.allOf( ForgeDirection.class ) ); } protected CableBusTextures getChannelTex(int i, boolean b) { if ( !powered ) i = 0; if ( b ) { switch (i) { default: return CableBusTextures.Channels10; case 5: return CableBusTextures.Channels11; case 6: return CableBusTextures.Channels12; case 7: return CableBusTextures.Channels13; case 8: return CableBusTextures.Channels14; } } else { switch (i) { case 0: return CableBusTextures.Channels00; case 1: return CableBusTextures.Channels01; case 2: return CableBusTextures.Channels02; case 3: return CableBusTextures.Channels03; default: return CableBusTextures.Channels04; } } } @SideOnly(Side.CLIENT) public void renderCoveredConection(int x, int y, int z, IPartRenderHelper rh, RenderBlocks renderer, int channels, ForgeDirection of) { TileEntity te = this.tile.getWorldObj().getTileEntity( x + of.offsetX, y + of.offsetY, z + of.offsetZ ); IPartHost ccph = te instanceof IPartHost ? (IPartHost) te : null; IGridHost ghh = te instanceof IGridHost ? (IGridHost) te : null; boolean isSmart = false; rh.setFacesToRender( EnumSet.complementOf( EnumSet.of( of.getOpposite() ) ) ); if ( ghh != null && ccph != null && ghh.getCableConnectionType( of.getOpposite() ) == AECableType.GLASS && ccph.getPart( of.getOpposite() ) == null && ccph.getColor() != AEColor.Transparent ) rh.setTexture( getGlassTexture( ccph.getColor() ) ); else if ( ccph == null && ghh != null && ghh.getCableConnectionType( of ) != AECableType.GLASS ) { rh.setTexture( getCoveredTexture( getCableColor() ) ); switch (of) { case DOWN: rh.setBounds( 5, 0, 5, 11, 4, 11 ); break; case EAST: rh.setBounds( 12, 5, 5, 16, 11, 11 ); break; case NORTH: rh.setBounds( 5, 5, 0, 11, 11, 4 ); break; case SOUTH: rh.setBounds( 5, 5, 12, 11, 11, 16 ); break; case UP: rh.setBounds( 5, 12, 5, 11, 16, 11 ); break; case WEST: rh.setBounds( 0, 5, 5, 4, 11, 11 ); break; default: return; } rh.renderBlock( x, y, z, renderer ); rh.setTexture( getTexture( getCableColor() ) ); } else if ( ghh != null && ccph != null && ghh.getCableConnectionType( of ) == AECableType.COVERED && ccph.getColor() != AEColor.Transparent ) rh.setTexture( getCoveredTexture( ccph.getColor() ) ); else if ( ghh != null && ccph != null && ghh.getCableConnectionType( of ) == AECableType.SMART ) { isSmart = true; rh.setTexture( getSmartTexture( getCableColor() ) ); } else rh.setTexture( getCoveredTexture( getCableColor() ) ); switch (of) { case DOWN: rh.setBounds( 6, 0, 6, 10, 5, 10 ); break; case EAST: rh.setBounds( 11, 6, 6, 16, 10, 10 ); break; case NORTH: rh.setBounds( 6, 6, 0, 10, 10, 5 ); break; case SOUTH: rh.setBounds( 6, 6, 11, 10, 10, 16 ); break; case UP: rh.setBounds( 6, 11, 6, 10, 16, 10 ); break; case WEST: rh.setBounds( 0, 6, 6, 5, 10, 10 ); break; default: return; } rh.renderBlock( x, y, z, renderer ); rh.setFacesToRender( EnumSet.allOf( ForgeDirection.class ) ); if ( isSmart ) { setSmartConnectionRotations( of, renderer ); IIcon defa = new TaughtIcon( getChannelTex( channels, false ).getIcon(), -0.2f ); IIcon defb = new TaughtIcon( getChannelTex( channels, true ).getIcon(), -0.2f ); if ( of == ForgeDirection.EAST || of == ForgeDirection.WEST ) { AEBaseBlock blk = (AEBaseBlock) rh.getBlock(); FlipableIcon ico = blk.getRendererInstance().getTexture( ForgeDirection.EAST ); ico.setFlip( false, true ); } Tessellator.instance.setBrightness( 15 << 20 | 15 << 4 ); Tessellator.instance.setColorOpaque_I( getCableColor().mediumVariant ); rh.setTexture( defa, defa, defa, defa, defa, defa ); renderAllFaces( (AEBaseBlock) rh.getBlock(), x, y, z, rh, renderer ); Tessellator.instance.setColorOpaque_I( getCableColor().whiteVariant ); rh.setTexture( defb, defb, defb, defb, defb, defb ); renderAllFaces( (AEBaseBlock) rh.getBlock(), x, y, z, rh, renderer ); renderer.uvRotateBottom = renderer.uvRotateEast = renderer.uvRotateNorth = renderer.uvRotateSouth = renderer.uvRotateTop = renderer.uvRotateWest = 0; } rh.setFacesToRender( EnumSet.allOf( ForgeDirection.class ) ); } @SideOnly(Side.CLIENT) public void renderSmartConection(int x, int y, int z, IPartRenderHelper rh, RenderBlocks renderer, int channels, ForgeDirection of) { TileEntity te = this.tile.getWorldObj().getTileEntity( x + of.offsetX, y + of.offsetY, z + of.offsetZ ); IPartHost ccph = te instanceof IPartHost ? (IPartHost) te : null; IGridHost ghh = te instanceof IGridHost ? (IGridHost) te : null; boolean isGlass = false; AEColor myColor = getCableColor(); rh.setFacesToRender( EnumSet.complementOf( EnumSet.of( of, of.getOpposite() ) ) ); if ( ghh != null && ccph != null && ghh.getCableConnectionType( of.getOpposite() ) == AECableType.GLASS && ccph.getPart( of.getOpposite() ) == null && ccph.getColor() != AEColor.Transparent ) { isGlass = true; rh.setTexture( getGlassTexture( myColor = ccph.getColor() ) ); } else if ( ccph == null && ghh != null && ghh.getCableConnectionType( of.getOpposite() ) != AECableType.GLASS ) { rh.setTexture( getSmartTexture( myColor ) ); switch (of) { case DOWN: rh.setBounds( 5, 0, 5, 11, 4, 11 ); break; case EAST: rh.setBounds( 12, 5, 5, 16, 11, 11 ); break; case NORTH: rh.setBounds( 5, 5, 0, 11, 11, 4 ); break; case SOUTH: rh.setBounds( 5, 5, 12, 11, 11, 16 ); break; case UP: rh.setBounds( 5, 12, 5, 11, 16, 11 ); break; case WEST: rh.setBounds( 0, 5, 5, 4, 11, 11 ); break; default: return; } rh.renderBlock( x, y, z, renderer ); if ( true ) { setSmartConnectionRotations( of, renderer ); IIcon defa = new TaughtIcon( getChannelTex( channels, false ).getIcon(), -0.2f ); IIcon defb = new TaughtIcon( getChannelTex( channels, true ).getIcon(), -0.2f ); if ( of == ForgeDirection.EAST || of == ForgeDirection.WEST ) { AEBaseBlock blk = (AEBaseBlock) rh.getBlock(); FlipableIcon ico = blk.getRendererInstance().getTexture( ForgeDirection.EAST ); ico.setFlip( false, true ); } Tessellator.instance.setBrightness( 15 << 20 | 15 << 4 ); Tessellator.instance.setColorOpaque_I( myColor.mediumVariant ); rh.setTexture( defa, defa, defa, defa, defa, defa ); renderAllFaces( (AEBaseBlock) rh.getBlock(), x, y, z, rh, renderer ); Tessellator.instance.setColorOpaque_I( myColor.whiteVariant ); rh.setTexture( defb, defb, defb, defb, defb, defb ); renderAllFaces( (AEBaseBlock) rh.getBlock(), x, y, z, rh, renderer ); renderer.uvRotateBottom = renderer.uvRotateEast = renderer.uvRotateNorth = renderer.uvRotateSouth = renderer.uvRotateTop = renderer.uvRotateWest = 0; } rh.setTexture( getTexture( getCableColor() ) ); } else if ( ghh != null && ccph != null && ghh.getCableConnectionType( of ) != AECableType.GLASS && ccph.getColor() != AEColor.Transparent && ccph.getPart( of.getOpposite() ) == null ) rh.setTexture( getSmartTexture( myColor = ccph.getColor() ) ); else rh.setTexture( getSmartTexture( getCableColor() ) ); switch (of) { case DOWN: rh.setBounds( 6, 0, 6, 10, 5, 10 ); break; case EAST: rh.setBounds( 11, 6, 6, 16, 10, 10 ); break; case NORTH: rh.setBounds( 6, 6, 0, 10, 10, 5 ); break; case SOUTH: rh.setBounds( 6, 6, 11, 10, 10, 16 ); break; case UP: rh.setBounds( 6, 11, 6, 10, 16, 10 ); break; case WEST: rh.setBounds( 0, 6, 6, 5, 10, 10 ); break; default: return; } rh.renderBlock( x, y, z, renderer ); rh.setFacesToRender( EnumSet.allOf( ForgeDirection.class ) ); if ( !isGlass ) { setSmartConnectionRotations( of, renderer ); IIcon defa = new TaughtIcon( getChannelTex( channels, false ).getIcon(), -0.2f ); IIcon defb = new TaughtIcon( getChannelTex( channels, true ).getIcon(), -0.2f ); Tessellator.instance.setBrightness( 15 << 20 | 15 << 4 ); Tessellator.instance.setColorOpaque_I( myColor.mediumVariant ); rh.setTexture( defa, defa, defa, defa, defa, defa ); renderAllFaces( (AEBaseBlock) rh.getBlock(), x, y, z, rh, renderer ); Tessellator.instance.setColorOpaque_I( myColor.whiteVariant ); rh.setTexture( defb, defb, defb, defb, defb, defb ); renderAllFaces( (AEBaseBlock) rh.getBlock(), x, y, z, rh, renderer ); renderer.uvRotateBottom = renderer.uvRotateEast = renderer.uvRotateNorth = renderer.uvRotateSouth = renderer.uvRotateTop = renderer.uvRotateWest = 0; } } @SideOnly(Side.CLIENT) protected void setSmartConnectionRotations(ForgeDirection of, RenderBlocks renderer) { switch (of) { case UP: case DOWN: renderer.uvRotateTop = 0; renderer.uvRotateBottom = 0; renderer.uvRotateSouth = 3; renderer.uvRotateEast = 3; break; case NORTH: case SOUTH: renderer.uvRotateTop = 3; renderer.uvRotateBottom = 3; renderer.uvRotateNorth = 1; renderer.uvRotateSouth = 2; renderer.uvRotateWest = 1; break; case EAST: case WEST: renderer.uvRotateEast = 2; renderer.uvRotateWest = 1; renderer.uvRotateBottom = 2; renderer.uvRotateTop = 1; renderer.uvRotateSouth = 3; renderer.uvRotateNorth = 0; break; default: break; } } @SideOnly(Side.CLIENT) protected void renderAllFaces(AEBaseBlock blk, int x, int y, int z, IPartRenderHelper rh, RenderBlocks renderer) { rh.setBounds( (float) renderer.renderMinX * 16.0f, (float) renderer.renderMinY * 16.0f, (float) renderer.renderMinZ * 16.0f, (float) renderer.renderMaxX * 16.0f, (float) renderer.renderMaxY * 16.0f, (float) renderer.renderMaxZ * 16.0f ); rh.renderFace( x, y, z, blk.getRendererInstance().getTexture( ForgeDirection.WEST ), ForgeDirection.WEST, renderer ); rh.renderFace( x, y, z, blk.getRendererInstance().getTexture( ForgeDirection.EAST ), ForgeDirection.EAST, renderer ); rh.renderFace( x, y, z, blk.getRendererInstance().getTexture( ForgeDirection.NORTH ), ForgeDirection.NORTH, renderer ); rh.renderFace( x, y, z, blk.getRendererInstance().getTexture( ForgeDirection.SOUTH ), ForgeDirection.SOUTH, renderer ); rh.renderFace( x, y, z, blk.getRendererInstance().getTexture( ForgeDirection.DOWN ), ForgeDirection.DOWN, renderer ); rh.renderFace( x, y, z, blk.getRendererInstance().getTexture( ForgeDirection.UP ), ForgeDirection.UP, renderer ); } @Override @SideOnly(Side.CLIENT) public void renderStatic(int x, int y, int z, IPartRenderHelper rh, RenderBlocks renderer) { renderCache = rh.useSimpliedRendering( x, y, z, this, renderCache ); boolean useCovered = false; boolean requireDetailed = false; for (ForgeDirection dir : ForgeDirection.VALID_DIRECTIONS) { IPart p = getHost().getPart( dir ); if ( p != null && p instanceof IGridHost ) { IGridHost igh = (IGridHost) p; AECableType type = igh.getCableConnectionType( dir.getOpposite() ); if ( type == AECableType.COVERED || type == AECableType.SMART ) { useCovered = true; break; } } else if ( connections.contains( dir ) ) { TileEntity te = this.tile.getWorldObj().getTileEntity( x + dir.offsetX, y + dir.offsetY, z + dir.offsetZ ); IPartHost ccph = te instanceof IPartHost ? (IPartHost) te : null; IGridHost gh = te instanceof IGridHost ? (IGridHost) te : null; if ( ccph == null && gh != null && gh.getCableConnectionType( dir ) != AECableType.GLASS ) requireDetailed = true; } } if ( useCovered ) { rh.setTexture( getCoveredTexture( getCableColor() ) ); } else { rh.setTexture( getTexture( getCableColor() ) ); } IPartHost ph = getHost(); for (ForgeDirection of : EnumSet.complementOf( connections )) { IPart bp = ph.getPart( of ); if ( bp instanceof IGridHost ) { int len = bp.cableConnectionRenderTo(); if ( len < 8 ) { switch (of) { case DOWN: rh.setBounds( 6, len, 6, 10, 6, 10 ); break; case EAST: rh.setBounds( 10, 6, 6, 16 - len, 10, 10 ); break; case NORTH: rh.setBounds( 6, 6, len, 10, 10, 6 ); break; case SOUTH: rh.setBounds( 6, 6, 10, 10, 10, 16 - len ); break; case UP: rh.setBounds( 6, 10, 6, 10, 16 - len, 10 ); break; case WEST: rh.setBounds( len, 6, 6, 6, 10, 10 ); break; default: continue; } rh.renderBlock( x, y, z, renderer ); } } } if ( connections.size() != 2 || !nonLinear( connections ) || useCovered || requireDetailed ) { if ( useCovered ) { rh.setBounds( 5, 5, 5, 11, 11, 11 ); rh.renderBlock( x, y, z, renderer ); } else { rh.setBounds( 6, 6, 6, 10, 10, 10 ); rh.renderBlock( x, y, z, renderer ); } for (ForgeDirection of : connections) { rendereGlassConection( x, y, z, rh, renderer, of ); } } else { IIcon def = getTexture( getCableColor() ); rh.setTexture( def ); for (ForgeDirection of : connections) { rh.setFacesToRender( EnumSet.complementOf( EnumSet.of( of, of.getOpposite() ) ) ); switch (of) { case DOWN: case UP: renderer.setRenderBounds( 6 / 16.0, 0, 6 / 16.0, 10 / 16.0, 16 / 16.0, 10 / 16.0 ); break; case EAST: case WEST: renderer.uvRotateEast = renderer.uvRotateWest = 1; renderer.uvRotateBottom = renderer.uvRotateTop = 1; renderer.setRenderBounds( 0, 6 / 16.0, 6 / 16.0, 16 / 16.0, 10 / 16.0, 10 / 16.0 ); break; case NORTH: case SOUTH: renderer.uvRotateNorth = renderer.uvRotateSouth = 1; renderer.setRenderBounds( 6 / 16.0, 6 / 16.0, 0, 10 / 16.0, 10 / 16.0, 16 / 16.0 ); break; default: continue; } } rh.renderBlockCurrentBounds( x, y, z, renderer ); } rh.setFacesToRender( EnumSet.allOf( ForgeDirection.class ) ); rh.setTexture( null ); } @Override public boolean changeColor(AEColor newColor, EntityPlayer who) { if ( getCableColor() != newColor ) { ItemStack newPart = null; if ( getCableConnectionType() == AECableType.GLASS ) newPart = AEApi.instance().parts().partCableGlass.stack( newColor, 1 ); else if ( getCableConnectionType() == AECableType.COVERED ) newPart = AEApi.instance().parts().partCableCovered.stack( newColor, 1 ); else if ( getCableConnectionType() == AECableType.SMART ) newPart = AEApi.instance().parts().partCableSmart.stack( newColor, 1 ); else if ( getCableConnectionType() == AECableType.DENSE ) newPart = AEApi.instance().parts().partCableDense.stack( newColor, 1 ); boolean hasPermission = true; try { hasPermission = proxy.getSecurity().hasPermission( who, SecurityPermissions.BUILD ); } catch (GridAccessException e) { // :P } if ( newPart != null && hasPermission ) { if ( Platform.isClient() ) return true; getHost().removePart( ForgeDirection.UNKNOWN, false ); getHost().addPart( newPart, ForgeDirection.UNKNOWN, who ); return true; } } return false; } @Override public void setValidSides(EnumSet sides) { proxy.setValidSides( sides ); } protected boolean nonLinear(EnumSet sides) { return (sides.contains( ForgeDirection.EAST ) && sides.contains( ForgeDirection.WEST )) || (sides.contains( ForgeDirection.NORTH ) && sides.contains( ForgeDirection.SOUTH )) || (sides.contains( ForgeDirection.UP ) && sides.contains( ForgeDirection.DOWN )); } }