view src/th06/ecl.rs @ 749:ee45bfde91bb

examples: Add missing reupload_texture_from_rgb_image() to common
author Emmanuel Gil Peyrot <linkmauve@linkmauve.fr>
date Wed, 29 Jan 2020 18:15:50 +0100
parents 414f8611f344
children fc937d93a57c
line wrap: on
line source

//! ECL enemy script format support.

use nom::{
    IResult,
    number::complete::{le_u8, le_u16, le_u32, le_i16, le_i32, le_f32},
    sequence::tuple,
    multi::{count, many0},
    error::ErrorKind,
    Err,
};
use encoding_rs::SHIFT_JIS;
use bitflags::bitflags;

bitflags! {
    /// Bit flags describing the current difficulty level.
    pub struct Rank: u16 {
        /// Easy mode.
        const EASY = 0x100;

        /// Normal mode.
        const NORMAL = 0x200;

        /// Hard mode.
        const HARD = 0x400;

        /// Lunatic mode.
        const LUNATIC = 0x800;

        /// Any or all modes.
        const ALL = 0xff00;
    }
}

impl std::str::FromStr for Rank {
    type Err = String;

    fn from_str(s: &str) -> Result<Rank, Self::Err> {
        Ok(match s {
            "easy" => Rank::EASY,
            "normal" => Rank::NORMAL,
            "hard" => Rank::HARD,
            "lunatic" => Rank::LUNATIC,
            _ => return Err(format!("unknown rank {}", s))
        })
    }
}

/// A single instruction, part of a `Script`.
#[derive(Debug, Clone)]
pub struct CallSub {
    /// Time at which this instruction will be called.
    pub time: i32,

    /// The difficulty level(s) this instruction will be called at.
    pub rank_mask: Rank,

    /// TODO
    pub param_mask: u16,

    /// The instruction to call.
    pub instr: SubInstruction,
}

impl CallSub {
    /// Create a new instruction call.
    pub fn new(time: i32, rank_mask: Rank, instr: SubInstruction) -> CallSub {
        CallSub {
            time,
            rank_mask,
            param_mask: 0,
            instr,
        }
    }
}

/// Script driving an animation.
#[derive(Debug, Clone)]
pub struct Sub {
    /// List of instructions in this script.
    pub instructions: Vec<CallSub>,
}

/// A single instruction, part of a `Script`.
#[derive(Debug, Clone)]
pub struct CallMain {
    /// Time at which this instruction will be called.
    pub time: u16,

    /// Subroutine to call for this enemy.
    pub sub: u16,

    /// The instruction to call.
    pub instr: MainInstruction,
}

/// Script driving an animation.
#[derive(Debug, Clone)]
pub struct Main {
    /// List of instructions in this script.
    pub instructions: Vec<CallMain>,
}

/// Main struct of the ANM0 animation format.
#[derive(Debug, Clone)]
pub struct Ecl {
    /// A list of subs.
    pub subs: Vec<Sub>,

    /// A list of mains.
    pub mains: Vec<Main>,
}

impl Ecl {
    /// Parse a slice of bytes into an `Ecl` struct.
    pub fn from_slice(data: &[u8]) -> IResult<&[u8], Ecl> {
        parse_ecl(data)
    }
}

macro_rules! declare_main_instructions {
    ($($opcode:tt => fn $name:ident($($arg:ident: $arg_type:ident),*)),*,) => {
        /// Available instructions in an `Ecl`.
        #[allow(missing_docs)]
        #[derive(Debug, Clone, Copy)]
        pub enum MainInstruction {
            $(
                $name($($arg_type),*)
            ),*
        }

        fn parse_main_instruction_args(input: &[u8], opcode: u16) -> IResult<&[u8], MainInstruction> {
            let mut i = &input[..];
            let instr = match opcode {
                $(
                    $opcode => {
                        $(
                            let (i2, $arg) = concat_idents!(le_, $arg_type)(i)?;
                            i = i2;
                        )*
                        MainInstruction::$name($($arg),*)
                    }
                )*
                _ => unreachable!()
            };
            Ok((i, instr))
        }
    };
}

/// Parse a SHIFT_JIS byte string of length 34 into a String.
#[allow(non_snake_case)]
pub fn le_String(i: &[u8]) -> IResult<&[u8], String> {
    let data = i.splitn(2, |c| *c == b'\0').nth(0).unwrap();
    let (string, _encoding, _replaced) = SHIFT_JIS.decode(data);
    Ok((&i[34..], string.into_owned()))
}

macro_rules! declare_sub_instructions {
    ($($opcode:tt => fn $name:ident($($arg:ident: $arg_type:ident),*)),*,) => {
        /// Available instructions in an `Ecl`.
        #[allow(missing_docs)]
        #[derive(Debug, Clone)]
        pub enum SubInstruction {
            $(
                $name($($arg_type),*)
            ),*
        }

        fn parse_sub_instruction_args(input: &[u8], opcode: u16) -> IResult<&[u8], SubInstruction> {
            let mut i = &input[..];
            let instr = match opcode {
                $(
                    $opcode => {
                        $(
                            let (i2, $arg) = concat_idents!(le_, $arg_type)(i)?;
                            i = i2;
                        )*
                        SubInstruction::$name($($arg),*)
                    }
                )*
                _ => unreachable!()
            };
            Ok((i, instr))
        }
    };
}

declare_main_instructions!{
    0 => fn SpawnEnemy(x: f32, y: f32, z: f32, life: i16, bonus_dropped: i16, die_score: u32),
    2 => fn SpawnEnemyMirrored(x: f32, y: f32, z: f32, life: i16, bonus_dropped: i16, die_score: u32),
    4 => fn SpawnEnemyRandom(x: f32, y: f32, z: f32, life: i16, bonus_dropped: i16, die_score: u32),
    6 => fn SpawnEnemyMirroredRandom(x: f32, y: f32, z: f32, life: i16, bonus_dropped: i16, die_score: u32),
    8 => fn CallMessage(),
    9 => fn WaitMessage(),
    10 => fn ResumeEcl(x: f32, y: f32),
    12 => fn WaitForBossDeath(),
}

declare_sub_instructions!{
    0 => fn Noop(),
    1 => fn Destroy(unused: u32),
    2 => fn RelativeJump(frame: i32, ip: i32),
    3 => fn RelativeJumpEx(frame: i32, ip: i32, variable_id: i32),
    4 => fn SetInt(var: i32, value: i32),
    5 => fn SetFloat(var: i32, value: f32),
    6 => fn SetRandomInt(var: i32, max: i32),
    7 => fn SetRandomIntMin(var: i32, max: i32, min: i32),
    8 => fn SetRandomFloat(var: i32, max: f32),
    9 => fn SetRandomFloatMin(var: i32, amplitude: f32, min: f32),
    10 => fn StoreX(var: i32),
    11 => fn StoreY(var: i32),
    12 => fn StoreZ(var: i32),
    13 => fn AddInt(var: i32, a: i32, b: i32),
    14 => fn SubstractInt(var: i32, a: i32, b: i32),
    15 => fn MultiplyInt(var: i32, a: i32, b: i32),
    16 => fn DivideInt(var: i32, a: i32, b: i32),
    17 => fn ModuloInt(var: i32, a: i32, b: i32),
    18 => fn Increment(var: i32),
    19 => fn Decrement(var: i32),
    20 => fn AddFloat(var: i32, a: f32, b: f32),
    21 => fn SubstractFloat(var: i32, a: f32, b: f32),
    22 => fn MultiplyFloat(var: i32, a: f32, b: f32),
    23 => fn DivideFloat(var: i32, a: f32, b: f32),
    24 => fn ModuloFloat(var: i32, a: f32, b: f32),
    25 => fn GetDirection(var: i32, x1: f32, y1: f32, x2: f32, y2: f32),
    26 => fn FloatToUnitCircle(var: i32),
    27 => fn CompareInts(a: i32, b: i32),
    28 => fn CompareFloats(a: f32, b: f32),
    29 => fn RelativeJumpIfLowerThan(frame: i32, ip: i32),
    30 => fn RelativeJumpIfLowerOrEqual(frame: i32, ip: i32),
    31 => fn RelativeJumpIfEqual(frame: i32, ip: i32),
    32 => fn RelativeJumpIfGreaterThan(frame: i32, ip: i32),
    33 => fn RelativeJumpIfGreaterOrEqual(frame: i32, ip: i32),
    34 => fn RelativeJumpIfNotEqual(frame: i32, ip: i32),
    35 => fn Call(sub: i32, param1: i32, param2: f32),
    36 => fn Return(),
    37 => fn CallIfSuperior(sub: i32, param1: i32, param2: f32, a: i32, b: i32),
    38 => fn CallIfSuperiorOrEqual(sub: i32, param1: i32, param2: f32, a: i32, b: i32),
    39 => fn CallIfEqual(sub: i32, param1: i32, param2: f32, a: i32, b: i32),
    40 => fn CallIfInferior(sub: i32, param1: i32, param2: f32, a: i32, b: i32),
    41 => fn CallIfInferiorOrEqual(sub: i32, param1: i32, param2: f32, a: i32, b: i32),
    42 => fn CallIfNotEqual(sub: i32, param1: i32, param2: f32, a: i32, b: i32),
    43 => fn SetPosition(x: f32, y: f32, z: f32),
    45 => fn SetAngleAndSpeed(angle: f32, speed: f32),
    46 => fn SetRotationSpeed(speed: f32),
    47 => fn SetSpeed(speed: f32),
    48 => fn SetAcceleration(acceleration: f32),
    49 => fn SetRandomAngle(min: f32, max: f32),
    50 => fn SetRandomAngleEx(min: f32, max: f32),
    51 => fn TargetPlayer(angle: f32, speed: f32),
    52 => fn MoveInDecel(duration: i32, angle: f32, speed: f32),
    56 => fn MoveToLinear(duration: i32, x: f32, y: f32, z: f32),
    57 => fn MoveToDecel(duration: i32, x: f32, y: f32, z: f32),
    59 => fn MoveToAccel(duration: i32, x: f32, y: f32, z: f32),
    61 => fn StopIn(duration: i32),
    63 => fn StopInAccel(duration: i32),
    65 => fn SetScreenBox(xmin: f32, ymin: f32, xmax: f32, ymax: f32),
    66 => fn ClearScreenBox(),
    67 => fn SetBulletAttributes1(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    68 => fn SetBulletAttributes2(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    69 => fn SetBulletAttributes3(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    70 => fn SetBulletAttributes4(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    71 => fn SetBulletAttributes5(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    74 => fn SetBulletAttributes6(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    75 => fn SetBulletAttributes7(anim: i16, sprite_index_offset: i16, bullets_per_shot: i32, number_of_shots: i32, speed: f32, speed2: f32, launch_angle: f32, angle: f32, flags: u32),
    76 => fn SetBulletInterval(interval: i32),
    77 => fn SetBulletIntervalEx(interval: i32),
    78 => fn DelayAttack(),
    79 => fn NoDelayAttack(),
    81 => fn SetBulletLaunchOffset(x: f32, y: f32, z: f32),
    82 => fn SetExtendedBulletAttributes(a: i32, b: i32, c: i32, d: i32, e: f32, f: f32, g: f32, h: f32),
    83 => fn ChangeBulletsInStarBonus(),
    // TODO: Found in stage 4 onward.
    84 => fn SetBulletSound(sound: i32),
    85 => fn NewLaser(laser_type: i16, sprite_idx_offset: i16, angle: f32, speed: f32, start_offset: f32, end_offset: f32, max_length: f32, width: f32, start_duration: i32, duration: i32, end_duration: i32, grazing_delay: i32, grazing_extra_duration: i32, UNK1: i32),
    86 => fn NewLaserTowardsPlayer(laser_type: i16, sprite_idx_offset: i16, angle: f32, speed: f32, start_offset: f32, end_offset: f32, max_length: f32, width: f32, start_duration: i32, duration: i32, end_duration: i32, grazing_delay: i32, grazing_extra_duration: i32, UNK1: i32),
    87 => fn SetUpcomingLaserId(id: u32),
    88 => fn AlterLaserAngle(id: u32, delta: f32),
    90 => fn RepositionLaser(id: u32, ox: f32, oy: f32, oz: f32),
    91 => fn LaserSetCompare(id: u32),
    92 => fn CancelLaser(id: u32),
    93 => fn SetSpellcard(face: i16, number: i16, name: String),
    94 => fn EndSpellcard(),
    95 => fn SpawnEnemy(sub: i32, x: f32, y: f32, z: f32, life: i16, bonus_dropped: i16, die_score: i32),
    96 => fn KillAllEnemies(),
    97 => fn SetAnim(script: i32),
    98 => fn SetMultipleAnims(default: i16, end_left: i16, end_right: i16, left: i16, right: i16, _unused: i16),
    99 => fn SetAuxAnm(number: i32, script: i32),
    100 => fn SetDeathAnim(sprite_index: i32),
    101 => fn SetBossMode(value: i32),
    102 => fn CreateSquares(UNK1: i32, UNK2: f32, UNK3: f32, UNK4: f32, UNK5: f32),
    103 => fn SetHitbox(width: f32, height: f32, depth: f32),
    104 => fn SetCollidable(collidable: i32),
    105 => fn SetDamageable(damageable: i32),
    106 => fn PlaySound(index: i32),
    107 => fn SetDeathFlags(death_flags: u32),
    108 => fn SetDeathCallback(sub: i32),
    109 => fn MemoryWriteInt(value: i32, index: i32),
    111 => fn SetLife(life: i32),
    112 => fn SetElapsedTime(frame: i32),
    113 => fn SetLowLifeTrigger(trigger: i32),
    114 => fn SetLowLifeCallback(sub: i32),
    115 => fn SetTimeout(timeout: i32),
    116 => fn SetTimeoutCallback(sub: i32),
    117 => fn SetTouchable(touchable: i32),
    118 => fn DropParticles(anim: i32, number: u32, r: u8, g: u8, b: u8, a: u8),
    119 => fn DropBonus(number: i32),
    120 => fn SetAutomaticOrientation(automatic: i32),
    121 => fn CallSpecialFunction(function: i32, argument: i32),
    122 => fn SetSpecialFunctionCallback(function: i32),
    123 => fn SkipFrames(frames: i32),
    124 => fn DropSpecificBonus(type_: i32),
    // TODO: Found in stage 3.
    125 => fn UNK_ins125(),
    126 => fn SetRemainingLives(lives: i32),
    // TODO: Found in stage 4.
    127 => fn UNK_ins127(UNK1: i32),
    128 => fn Interrupt(event: i32),
    129 => fn InterruptAux(number: i32, event: i32),
    // TODO: Found in stage 4.
    130 => fn UNK_ins130(UNK1: i32),
    131 => fn SetDifficultyCoeffs(speed_a: f32, speed_b: f32, nb_a: i32, nb_b: i32, shots_a: i32, shots_b: i32),
    132 => fn SetInvisible(invisible: i32),
    133 => fn CopyCallbacks(),
    // TODO: Found in stage 4.
    134 => fn UNK_ins134(),
    135 => fn EnableSpellcardBonus(UNK1: i32),
}

fn parse_sub_instruction(input: &[u8]) -> IResult<&[u8], CallSub> {
    let i = &input[..];
    let (i, (time, opcode)) = tuple((le_i32, le_u16))(i)?;
    if time == -1 || opcode == 0xffff {
        return Err(Err::Error((i, ErrorKind::Eof)));
    }

    let (i, (size, rank_mask, param_mask)) = tuple((le_u16, le_u16, le_u16))(i)?;
    let rank_mask = Rank::from_bits(rank_mask).unwrap();
    let (i, instr) = parse_sub_instruction_args(i, opcode)?;
    assert_eq!(input.len() - i.len(), size as usize);
    let call = CallSub { time, rank_mask, param_mask, instr };
    Ok((i, call))
}

fn parse_sub(i: &[u8]) -> IResult<&[u8], Sub> {
    let (i, instructions) = many0(parse_sub_instruction)(i)?;
    let sub = Sub { instructions };
    Ok((i, sub))
}

fn parse_main_instruction(input: &[u8]) -> IResult<&[u8], CallMain> {
    let i = &input[..];
    let (i, (time, sub)) = tuple((le_u16, le_u16))(i)?;
    if time == 0xffff && sub == 4 {
        return Err(Err::Error((i, ErrorKind::Eof)));
    }

    let (i, (opcode, size)) = tuple((le_u16, le_u16))(i)?;
    let size = size as usize;
    let (i, instr) = parse_main_instruction_args(i, opcode)?;
    assert_eq!(input.len() - i.len(), size as usize);
    let call = CallMain { time, sub, instr };
    Ok((i, call))
}

fn parse_main(i: &[u8]) -> IResult<&[u8], Main> {
    let (i, instructions) = many0(parse_main_instruction)(i)?;
    let main = Main { instructions };
    Ok((i, main))
}

fn parse_ecl(input: &[u8]) -> IResult<&[u8], Ecl> {
    let i = input;

    let (i, (sub_count, main_count)) = tuple((le_u16, le_u16))(i)?;
    let sub_count = sub_count as usize;

    if main_count != 0 {
        // TODO: use a better error.
        return Err(Err::Error((i, ErrorKind::Eof)));
    }

    let (_, (main_offsets, sub_offsets)) = tuple((
        count(le_u32, 3),
        count(le_u32, sub_count),
    ))(i)?;

    // Read all subs.
    let mut subs = Vec::new();
    for offset in sub_offsets.into_iter().map(|offset| offset as usize) {
        let (_, sub) = parse_sub(&input[offset..])?;
        subs.push(sub);
    }

    // Read all mains (always a single one atm).
    let mut mains = Vec::new();
    for offset in main_offsets.into_iter().map(|offset| offset as usize) {
        if offset == 0 {
            break;
        }
        let (_, main) = parse_main(&input[offset..])?;
        mains.push(main);
    }

    let ecl = Ecl {
        subs,
        mains,
    };
    Ok((b"", ecl))
}

#[cfg(test)]
mod tests {
    use super::*;
    use std::io::{self, Read};
    use std::fs::File;

    #[test]
    fn ecl() {
        let file = File::open("EoSD/ST/ecldata1.ecl").unwrap();
        let mut file = io::BufReader::new(file);
        let mut buf = vec![];
        file.read_to_end(&mut buf).unwrap();
        let (_, ecl) = Ecl::from_slice(&buf).unwrap();
        assert_eq!(ecl.subs.len(), 24);
        assert_eq!(ecl.mains.len(), 1);
    }
}