//! the industry part of mindustry
use crate::block::simple::*;
use crate::block::*;
use crate::data::DataRead;

make_register! {
    "cultivator" -> ProductionBlock::new(2, true, cost!(Copper: 25, Lead: 25, Silicon: 10));
    "graphite-press" -> ProductionBlock::new(2, true, cost!(Copper: 75, Lead: 30));
    "multi-press" -> ProductionBlock::new(3, true, cost!(Lead: 100, Graphite: 50, Titanium: 100, Silicon: 25));
    "silicon-smelter" -> ProductionBlock::new(2, true, cost!(Copper: 30, Lead: 25));
    "silicon-crucible" -> ProductionBlock::new(3, true, cost!(Metaglass: 80, Titanium: 120, Silicon: 60, Plastanium: 35));
    "kiln" -> ProductionBlock::new(2, true, cost!(Copper: 60, Lead: 30, Graphite: 30));
    "plastanium-compressor" -> ProductionBlock::new(2, true, cost!(Lead: 115, Graphite: 60, Titanium: 80, Silicon: 80));
    "phase-weaver" -> ProductionBlock::new(2, true, cost!(Lead: 120, Thorium: 75, Silicon: 130));
    "surge-smelter" -> ProductionBlock::new(3, true, cost!(Lead: 80, Thorium: 70, Silicon: 80));
    "cryofluid-mixer" -> ProductionBlock::new(2, true, cost!(Lead: 65, Thorium: 60, Silicon: 40));
    "pyratite-mixer" -> ProductionBlock::new(2, true, cost!(Copper: 50, Lead: 25));
    "blast-mixer" -> ProductionBlock::new(2, true, cost!(Lead: 30, Thorium: 20));
    "melter" -> ProductionBlock::new(1, true, cost!(Copper: 30, Lead: 35, Graphite: 45));
    "separator" -> SeparatorBlock::new(2, true, cost!(Copper: 30, Titanium: 25));
    "disassembler" -> SeparatorBlock::new(3, true, cost!(Titanium: 100, Thorium: 80, Silicon: 150, Plastanium: 40));
    "spore-press" -> ProductionBlock::new(2, true, cost!(Lead: 35, Silicon: 30));
    "pulverizer" -> ProductionBlock::new(1, true, cost!(Copper: 30, Lead: 25));
    "coal-centrifuge" -> ProductionBlock::new(2, true, cost!(Lead: 30, Graphite: 40, Titanium: 20));
    "incinerator" -> BasicBlock::new(1, true, cost!(Lead: 15, Graphite: 5));
    "silicon-arc-furnace" -> ProductionBlock::new(3, true, cost!(Beryllium: 70, Graphite: 80));
    "electrolyzer" => ProductionBlock::new(3, true, cost!(Silicon: 50, Graphite: 40, Beryllium: 130, Tungsten: 80));
    "atmospheric-concentrator" -> ProductionBlock::new(3, true, cost!(Oxide: 60, Beryllium: 180, Silicon: 150));
    "oxidation-chamber" => HeatCrafter::new(3, true, cost!(Tungsten: 120, Graphite: 80, Silicon: 100, Beryllium: 120));
    "electric-heater" => HeatCrafter::new(2, false, cost!(Tungsten: 30, Oxide: 30));
    "slag-heater" => HeatCrafter::new(3, false, cost!(Tungsten: 50, Oxide: 20, Beryllium: 20));
    "phase-heater" => HeatCrafter::new(2, false, cost!(Oxide: 30, Carbide: 30, Beryllium: 30));
    "heat-redirector" => HeatConduit::new(3, false, cost!(Tungsten: 10, Graphite: 10));
    "heat-router" => HeatConduit::new(3, false, cost!(Tungsten: 15, Graphite: 10));
    "slag-incinerator" -> BasicBlock::new(1, true, cost!(Tungsten: 15));
    "carbide-crucible" -> ProductionBlock::new(3, true, cost!(Tungsten: 110, Thorium: 150, Oxide: 60));
    // slag centrifuge
    "surge-crucible" -> ProductionBlock::new(3, true, cost!(Silicon: 100, Graphite: 80, Tungsten: 80, Oxide: 80));
    "cyanogen-synthesizer" -> ProductionBlock::new(3, true, cost!(Carbide: 50, Silicon: 80, Beryllium: 90));
    "phase-synthesizer" -> ProductionBlock::new(3, true, cost!(Carbide: 90, Silicon: 100, Thorium: 100, Tungsten: 200));
    // heat reactor
    // sandbox only
    "heat-source" => HeatCrafter::new(1, false, &[]);
}

// format: call [`read_production_block`], seed: [`i32`]
make_simple!(SeparatorBlock => |_, _, _, buff: &mut DataRead| buff.skip(12));

make_simple!(
    ProductionBlock,
    |_, _, _, _, r: Rotation, s| {
        // electrolyzer exclusive
        // ozone <- e(^) -> hydrogen
        let mut base = load!("electrolyzer", s);
        base.overlay(unsafe {
            load!(s -> match r {
                Rotation::Up | Rotation::Left => "electrolyzer-hydrogen-output1"
                Rotation::Down | Rotation::Right => "electrolyzer-hydrogen-output2"
            })
            .rotate(r.count())
        });
        base.overlay(unsafe {
            load!(s -> match r {
                Rotation::Down | Rotation::Right => "electrolyzer-ozone-output1"
                Rotation::Up | Rotation::Left => "electrolyzer-ozone-output2"
            })
            .rotate(r.mirrored(true, true).count())
        });
        base
    },
    |b: &mut Build<'_>, _, _, buff: &mut DataRead| {
        // format:
        // - progress: `f32`
        // - warmup: `f32`
        // (cultivator)
        // `f32`
        buff.skip(8 + if b.name() == "cultivator" { 4 } else { 0 })
    }
);

make_simple!(
    HeatCrafter,
    |_, n, _, _, r: Rotation, s| {
        let mut base = load!(from n which is ["phase-heater" | "electric-heater" | "oxidation-chamber" | "slag-heater" | "heat-source"], s);
        base.overlay(unsafe { match r {
            Rotation::Up | Rotation::Right => load!(concat top1 => n which is ["phase-heater" | "electric-heater" | "oxidation-chamber" | "slag-heater" | "heat-source"], s),
            Rotation::Down | Rotation::Left => load!(concat top2 => n which is ["phase-heater" | "electric-heater" | "oxidation-chamber" | "slag-heater" | "heat-source"], s)
        }.rotate(r.rotated(false).count())});
        base
    },
    |_, _, _, buff: &mut DataRead| {
        // format:
        // - progress: `f32`
        // - warmup: `f32`
        // - heat: f32
        buff.skip(12)?;
        Ok(())
    }
);
make_simple!(HeatConduit, |_, n, _, _, r: Rotation, s| {
    let mut base = load!(from n which is ["heat-router" | "heat-redirector"], s);
    base.overlay(unsafe {
        match r {
            Rotation::Up | Rotation::Right => {
                load!(concat top1 => n which is ["heat-router" | "heat-redirector"], s)
            }
            Rotation::Down | Rotation::Left => {
                load!(concat top2 => n which is ["heat-router" | "heat-redirector"], s)
            }
        }
        .rotate(r.rotated(false).count())
    });
    base
});