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nescript/examples/platformer.ne
Claude 169a481099
feat(platformer): add stomp-or-die enemy collisions, live HUD, GameOver state
The previous platformer example drew enemies but had almost no
interaction with them: only enemy 1 had a stomp check, the stomp
window was unreachable under the default +1-px-per-frame-plus-a-
jump-every-40-frames autopilot, contact from any other angle was
a silent no-op, and the header comment promised a "title → playing
→ game-over state machine" that didn't actually exist. The README
demo gif and the committed golden both froze that state — a level
the player could walk through indefinitely with no consequence.

Flesh the enemy interaction model out into something real:

- `resolve_enemy_hit(e_sx)`: one helper, called symmetrically for
  both enemies. Computes the player/enemy hitbox overlap (horizontal
  in `e_sx ∈ (72, 96)`, vertical in `player_y ∈ (152, 176)`) and
  branches three ways — falling onto the head is a stomp bounce
  (`rise_count = 6`, `fall_vy = 0`, `stomp_count += 1`, `play Boing`);
  overlap while `rise_count > 0` is a grace pass-through so the
  stomp bounce itself can't retrigger contact on the same enemy;
  anything else (walking into the side, standing on the ground
  against the enemy) is fatal — `alive = 0` and `play hit`.

- New `GameOver` state: draws four enemy tiles across the middle
  of the screen plus a coin row sized to `stomp_count`, stops the
  music, lingers 60 frames then auto-retries, and also honours
  Start for an instant retry.

- Proximity-based autopilot: pre-jump when an enemy is exactly 19 px
  ahead (`e1_sx == 99` or `e2_sx == 99`), capped at two jumps per
  life by `auto_jumps < AUTOPILOT_JUMPS`. Tuning: a JUMP_RISE=12,
  GRAVITY_CAP=4 jump lands the player's feet at enemy-head height
  exactly 21 frames after lift-off, by which point the autopilot
  camera has scrolled the enemy under the player. The first jump
  fires on Playing frame 1 and stomps enemy 1 on frame 22; the
  second fires on Playing frame 101 and stomps enemy 2 on frame
  122. After that the autopilot is exhausted and the third enemy
  encounter (camera wraps back past enemy 1) is fatal — the
  golden harness now sees the full stomp, stomp, die, retry, stomp
  loop instead of a frozen walk.

- Live HUD: up to four coin sprites in the top-left, one per
  stomp, rendered both during `Playing` and on the `GameOver`
  screen so the score is visible in the death frame. `Playing`'s
  player draw is now guarded by `if alive == 1` so the hero
  disappears on the fatal-contact frame and the enemy that killed
  them is visible underneath.

Verified with a per-frame ZP trace through the patched puppeteer
+ jsnes harness: first stomp at emu frame 44 (camera_x=22), second
at emu frame 144 (camera_x=122), death at emu frame 283 (camera_x=5
after a 256-px wrap), `Playing` restart at emu frame 343, third
stomp at emu frame 365. All 22 emulator goldens still match after
the update, and `docs/platformer.gif` regenerated from the new ROM
now shows two clean stomps, a clean side-collision death, the
GameOver screen, and the retry cycle all inside the 6-second demo
window.

Golden updates:
- `tests/emulator/goldens/platformer.png` — the frame-180 capture
  now shows the hero walking forward with a two-coin HUD after
  both autopilot stomps (previously: a frozen bouncing hero).
- `tests/emulator/goldens/platformer.audio.hash` — the track now
  includes two `Boing` stomp bounces, which shifts the hash.
- `examples/platformer.nes` — rebuilt from the rewritten source.

Also updates the platformer rows in `README.md` and
`examples/README.md` to match the new gameplay.

https://claude.ai/code/session_013Bi4H4YQ5or5HtMB4doUFi
2026-04-13 20:23:07 +00:00

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// Platformer — an end-to-end side-scrolling demo game that
// exercises nearly every subsystem of the NEScript compiler in
// one program: custom CHR tiles, a full 32×30 background nametable
// with per-region attribute palettes, a multi-tile metasprite
// player with gravity/jump physics, wrap-around horizontal
// scrolling, moving enemies with stomp-or-die contact logic, a
// coin HUD that tracks live score, collectible coins, user-declared
// SFX envelopes, a user-declared music track, and a
// title → playing → game-over state machine driven by both
// controller input and an autopilot so the jsnes golden harness
// (which runs headless with no simulated buttons) still captures
// the full gameplay loop inside the first ~6 seconds of demo.
//
// Controls (when played by a human):
// D-pad left/right — walk
// A — jump
// Start — on title screen: begin; after game over: retry
//
// Build: cargo run --release -- build examples/platformer.ne
// Output: examples/platformer.nes
//
// All CHR tile art, nametable bytes, and attribute bytes in this
// file are generated by `cargo run --bin gen_platformer_tiles`.
// Regenerate them from `scripts/gen_platformer_tiles.rs` if you
// want to tweak the level.
game "Platformer" {
mapper: NROM
// Horizontal arrangement means nametable 1 mirrors nametable 0
// horizontally, so our single loaded nametable tiles endlessly
// as the camera scrolls right.
mirroring: horizontal
}
// ── Palette ──────────────────────────────────────────────────
// Authored in grouped form: one shared `universal:` colour fills
// every sub-palette's index-0 slot automatically. That single
// declaration is enough to dodge the notorious `$3F10/$3F14/$3F18/
// $3F1C` PPU mirror trap — when a program writes 8 distinct
// "index 0" bytes sequentially, the last write clobbers the
// shared background colour and the screen turns the wrong colour
// (or all-black). Using one shared universal everywhere is what
// every shipped NES game does; the parser handles it for us.
//
// `0x22` is the lavender-blue NES master palette slot Super Mario
// Bros uses for its iconic sky. The colour names map to the
// curated set documented in `docs/language-guide.md`.
palette Main {
universal: 0x22 // sky blue (NES $22)
// Background sub-palettes
bg0: [white, gray, black] // sky / clouds
bg1: [red, orange, dk_red] // bricks, Q-blocks
bg2: [bright_green, dk_orange, brown] // grass, hills, bushes, dirt
bg3: [yellow, orange, dk_orange] // reserved
// Sprite sub-palette 0 — every `draw` uses this one slot
// because the OAM attribute byte is always 0 in v0.1.
// 1 = red cap, 2 = orange skin, 3 = white highlight.
sp0: [red, orange, white]
sp1: [brown, dk_orange, orange] // reserved
sp2: [neon_green, bright_green, white] // reserved
sp3: [yellow, olive, cream] // reserved
}
// ── Tileset ──────────────────────────────────────────────────
// One big sprite declaration holds every custom CHR tile used by
// both sprites and the background nametable. `draw Tileset ...
// frame: N` overrides the OAM tile-index byte with `N`, so the
// same declaration drives the player, enemies, coins, and every
// background tile after tile 0. Tile 0 is reserved by the linker
// for the built-in smiley — the background leaves it unreferenced.
//
// All 15 tiles are authored as 8×8 ASCII pixel art and stacked
// vertically (1 tile wide × 15 tiles tall) so the parser splits
// them into consecutive CHR tile indices in reading order. The
// art uses the `.abc` vocabulary (`. = 0`, `a = 1`, `b = 2`,
// `c = 3`); regenerate with `cargo run --bin gen_platformer_tiles`.
sprite Tileset {
pixels: [
// tile 1: Player head L
"..aaaaaa",
".aaaaaaa",
".aaabbbb",
".aabbbbc",
"aabbcccc",
"aabbccbc",
"aabbbbbb",
"aabbbbbb",
// tile 2: Player head R
"aaaaaa..",
"aaaaaaa.",
"bbbbaaa.",
"cbbbbbaa",
"cccccbbb",
"bcbbccbb",
"bbbbbbbb",
"bbbbbbbb",
// tile 3: Player body L
".aaaaaaa",
"aaacaaaa",
"aaaccaaa",
"aaaaaaaa",
".bbbbbbb",
".bbbbbbb",
".bb..bbb",
"aaa..bbb",
// tile 4: Player body R
"aaaaaaa.",
"aaaacaaa",
"aaaccaaa",
"aaaaaaaa",
"bbbbbbb.",
"bbbbbbb.",
"bbb..bb.",
"bbb..aaa",
// tile 5: Enemy
"..aaaa..",
".aaaaaa.",
".aacbaa.",
"aacccaaa",
"abbccbba",
".aaaaaa.",
"a.aaaa.a",
"a..aa..a",
// tile 6: Coin
"...bb...",
"..bbbb..",
".bbccbb.",
".bcbbcb.",
".bcbbcb.",
".bbccbb.",
"..bbbb..",
"...bb...",
// tile 7: Grass top
"aaaaaaaa",
"a.aaa.aa",
"aaaaaaaa",
"accacaca",
"ccccaccc",
"cccccccc",
"cbccccbc",
"cccccccc",
// tile 8: Dirt
"cccccccc",
"cbccccbc",
"cccccccc",
"ccccbccc",
"cccccccc",
"cbccccbc",
"ccccbccc",
"cccccccc",
// tile 9: Brick
"cccccccc",
"caaaaaca",
"caaaaaca",
"caaaaaca",
"cccccccc",
"aaacaaaa",
"aaacaaaa",
"aaacaaaa",
// tile 10: Cloud L
"........",
"...aaa..",
"..aaaaa.",
".aaaaaaa",
".aaaaaaa",
".bbaaaaa",
"..bbbbba",
".....bbb",
// tile 11: Cloud R
"........",
".aaa....",
"aaaaa...",
"aaaaaaa.",
"aaaaaaa.",
"aaaaabb.",
"abbbbb..",
"bbb.....",
// tile 12: Hill
"........",
"....aa..",
"...aaaa.",
"..aaaaaa",
"..abaaaa",
".abbabaa",
".aaababa",
"aabbabba",
// tile 13: Bush
"........",
"...aa...",
"..aaaa..",
".aaaaac.",
"aaaaaaca",
"aaaaacca",
"aaaaacca",
"acacacac",
// tile 14: Q Block
"cccccccc",
"caaaaaac",
"cabbbbac",
"cabccbac",
"cabcbbac",
"cabbbbac",
"caaaaaac",
"cccccccc",
// tile 15: Sky (blank)
"........",
"........",
"........",
"........",
"........",
"........",
"........",
"........"
]
}
// Tile index constants — must match `scripts/gen_platformer_tiles.rs`.
const TILE_PLAYER_HL: u8 = 1
const TILE_PLAYER_HR: u8 = 2
const TILE_PLAYER_BL: u8 = 3
const TILE_PLAYER_BR: u8 = 4
const TILE_ENEMY: u8 = 5
const TILE_COIN: u8 = 6
// ── Background ──────────────────────────────────────────────
// The 32×30 nametable is authored as ASCII art with a `legend`
// block naming each tile by a single character. Horizontal
// scrolling pans this single nametable via `scroll()` so it only
// needs to look interesting at any X offset.
//
// `palette_map:` is the friendlier alternative to a 64-byte
// hand-packed attribute table: 16×15 metatile entries, one
// digit per 16×16 metatile, and the parser packs the 2-bit
// `(br<<6)|(bl<<4)|(tr<<2)|tl` quadrants automatically. The
// three palette regions are sky (`0`), brick row (`1`), and
// ground (`2`).
background Level {
legend {
".": 15 // sky (blank)
"<": 10 // cloud left half
">": 11 // cloud right half
"#": 9 // brick
"Q": 14 // question block
"^": 12 // hill silhouette
"*": 13 // bush
"=": 7 // grass top
"%": 8 // dirt
}
map: [
"................................",
"................................",
"................................",
"................................",
"................................",
"....<>..............<>..........",
"............<>..................",
"................................",
"................................",
"................................",
"................................",
"................................",
"................................",
"................................",
"................................",
"......##Q#........###...........",
"................................",
"................................",
"................................",
"................................",
"..^^^.................^^^^......",
"..........***..............**...",
"================================",
"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%#%",
"%%%%%#%%%%%%%%%%%%#%%%%%%%%%%%%%",
"%%%%%%%%%%%#%%%%%%%%%%%%#%%%%%%%",
"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%",
"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%",
"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%",
"%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%"
]
palette_map: [
"0000000000000000", // metatile rows 0-5 → sky sub-palette
"0000000000000000",
"0000000000000000",
"0000000000000000",
"0000000000000000",
"0000000000000000",
"1111111111111111", // metatile rows 6-7 → brick sub-palette
"1111111111111111",
"0000000000000000", // metatile rows 8-9 → sky again
"0000000000000000",
"2222222222222222", // metatile rows 10-15 → ground sub-palette
"2222222222222222", // (rows 15 sits off-screen but the PPU
"2222222222222222", // still reads its attribute byte, so
"2222222222222222", // we emit it explicitly to match the
"2222222222222222", // hand-packed attribute table the
"2222222222222222" // old form was using.)
]
}
// ── Audio ────────────────────────────────────────────────────
//
// SFX: scalar `pitch:` matches the v1 driver's latch-once
// behaviour — pulse 1's period is sampled exactly once when the
// effect triggers and never updated, so a single byte is the
// natural form for the current pipeline. `envelope:` is the
// friendlier alias for `volume:`.
// Custom boingy jump sound — fixed-pitch arc on pulse 1.
sfx Boing {
duty: 2
pitch: 0x30
envelope: [12, 11, 10, 9, 7, 5, 2]
}
// Custom coin ding — short rising blip.
sfx Ding {
duty: 2
pitch: 0x20
envelope: [14, 12, 8, 3]
}
// Custom looping underworld theme — playful four-bar loop on
// pulse 2 that plays while the player is alive. Note names
// (C4 / E4 / etc.) plus a default `tempo:` so each note only
// has to spell its frame count when it deviates from the beat.
music Theme {
duty: 2
volume: 9
repeat: true
tempo: 10
notes: [
C4, E4, G4, C5, G4, E4,
D4 15,
rest 5,
B3, E4, G4,
C5 20,
rest 10
]
}
// ── Gameplay constants ──────────────────────────────────────
const PLAYER_SCREEN_X: u8 = 80 // fixed camera-relative X
const GROUND_Y: u8 = 160 // feet land here (y of head)
const JUMP_RISE: u8 = 12 // upward frames after take-off
const JUMP_PX: u8 = 3 // px moved each rise frame
const GRAVITY_CAP: u8 = 4 // terminal fall speed
const ENEMY_Y: u8 = 168 // enemies walk on the grass
const COIN_Y: u8 = 144 // coins float a bit above
// World-space X positions of the moving entities. Wrap-around
// arithmetic (u8) makes the level feel like an endless loop.
const ENEMY1_WORLD_X: u8 = 100
const ENEMY2_WORLD_X: u8 = 200
const COIN1_WORLD_X: u8 = 50
const COIN2_WORLD_X: u8 = 150
// How many auto-jumps the autopilot will pre-queue per life. Two
// is exactly enough to stomp enemy 1 and enemy 2 once each; after
// that the autopilot stops assisting so the headless harness gets
// to see the player walk into the next enemy, die, and retry.
const AUTOPILOT_JUMPS: u8 = 2
// ── Game state ──────────────────────────────────────────────
// Player physics
var player_y: u8 = 160
var on_ground: u8 = 1
var rise_count: u8 = 0 // frames of upward motion remaining
var fall_vy: u8 = 0 // gravity accumulator
// World/camera
var camera_x: u8 = 0
var frame_tick: u8 = 0 // free-running frame counter
var anim_tick: u8 = 0 // visual animation phase
// Gameplay
var alive: u8 = 1 // 0 = dying/dead, 1 = playable
var stomp_count: u8 = 0 // successful enemy stomps this life
var auto_jumps: u8 = 0 // proximity pre-jumps used this life
// ── Helper functions ────────────────────────────────────────
// Try to start a jump. Only valid when the player is on the
// ground (on_ground == 1); otherwise this is a no-op.
fun try_jump() {
if on_ground == 1 {
rise_count = JUMP_RISE
on_ground = 0
fall_vy = 0
play Boing
}
}
// Advance player physics one frame. Handles the jump-rise phase
// (upward movement while rise_count > 0) and the gravity fall
// phase (increment fall_vy each frame up to GRAVITY_CAP, clamp to
// GROUND_Y on landing).
fun step_physics() {
if rise_count > 0 {
// Clamp underflow so a too-high jump doesn't wrap into the
// bottom of the screen on an 8-bit subtraction.
if player_y >= JUMP_PX {
player_y -= JUMP_PX
} else {
player_y = 0
}
rise_count -= 1
} else {
player_y += fall_vy
if fall_vy < GRAVITY_CAP {
fall_vy += 1
}
if player_y >= GROUND_Y {
player_y = GROUND_Y
on_ground = 1
fall_vy = 0
}
}
}
// Draw the 2×2 hero metasprite at (PLAYER_SCREEN_X, player_y).
// Each `draw` statement writes a fresh OAM slot via the runtime
// cursor, so four calls produce four sprites occupying a 16×16
// block.
fun draw_player() {
draw Tileset at: (PLAYER_SCREEN_X, player_y ) frame: TILE_PLAYER_HL
draw Tileset at: (PLAYER_SCREEN_X + 8, player_y ) frame: TILE_PLAYER_HR
draw Tileset at: (PLAYER_SCREEN_X, player_y + 8) frame: TILE_PLAYER_BL
draw Tileset at: (PLAYER_SCREEN_X + 8, player_y + 8) frame: TILE_PLAYER_BR
}
// Resolve contact with an enemy whose screen X is `e_sx`. Mutates
// the player's physics / alive flag directly and returns 1 on a
// successful stomp, 0 on no contact or a fatal hit. The caller
// checks `alive` after invocation to decide whether to keep
// running the frame.
//
// The player's 16×16 hitbox is at ([80, 96), [player_y, player_y+16)).
// Each enemy's 8×8 hitbox is at ([e_sx, e_sx+8), [168, 176)). Those
// overlap horizontally when e_sx ∈ (72, 96) and overlap vertically
// when player_y ∈ (152, 176).
//
// Outcomes:
// - No overlap → no-op
// - Overlap while rising (rise_count > 0) → graceful
// pass-through. rise_count > 0 only happens right after a
// successful stomp bounce (try_jump() clears rise_count by
// the end of the same frame) or on the stomp's own upward
// leg, which we don't want to retrigger.
// - Overlap while falling, feet near enemy head → STOMP: bounce
// up, increment `stomp_count`, play Boing
// - Any other overlap (walking, on ground) → DEATH: set
// `alive = 0` and play the builtin `hit` sfx
fun resolve_enemy_hit(e_sx: u8) -> u8 {
if e_sx > 72 {
if e_sx < 96 {
if player_y > 152 {
if player_y < 176 {
// Real contact. Stomp if falling; otherwise, if
// we're not in the post-bounce grace window,
// die.
if fall_vy > 0 {
rise_count = 6
fall_vy = 0
stomp_count += 1
play Boing
return 1
}
if rise_count == 0 {
alive = 0
play hit
}
}
}
}
}
return 0
}
// ── States ──────────────────────────────────────────────────
state Title {
var blink: u8 = 0
on enter {
blink = 0
frame_tick = 0
start_music Theme
}
on frame {
frame_tick += 1
blink += 1
if blink >= 60 {
blink = 0
}
// Blink a "press start" marker at roughly 0.5 Hz. We use
// the coin tile for visual continuity with the game world.
if blink < 30 {
draw Tileset at: (120, 120) frame: TILE_COIN
}
// Auto-advance so the jsnes golden harness (which never
// presses start) still reaches Playing and captures gameplay
// at frame 180. A human player can also press Start to skip
// the wait early.
if frame_tick >= 20 {
transition Playing
}
if button.start {
transition Playing
}
}
}
state Playing {
on enter {
player_y = GROUND_Y
on_ground = 1
rise_count = 0
fall_vy = 0
camera_x = 0
frame_tick = 0
anim_tick = 0
alive = 1
stomp_count = 0
auto_jumps = 0
start_music Theme
}
on frame {
frame_tick += 1
anim_tick += 1
// ── Input ─────────────────────────────────────────────
// Human controls — these work even while the autopilot
// is running so you can stomp the demo at any time.
if button.a {
try_jump()
}
if button.right {
camera_x += 1 // walk forward by scrolling right
}
if button.left {
// Walk back (wraps the camera — the level is cyclic).
camera_x -= 1
}
// Always advance camera one px per frame (baseline scroll).
camera_x += 1
// ── Compute screen positions of world entities ──────
var e1_sx: u8 = ENEMY1_WORLD_X - camera_x
var e2_sx: u8 = ENEMY2_WORLD_X - camera_x
var c1_sx: u8 = COIN1_WORLD_X - camera_x
var c2_sx: u8 = COIN2_WORLD_X - camera_x
// ── Proximity autopilot ─────────────────────────────
// Pre-jump when an enemy is 19 px ahead. The fall phase of
// a JUMP_RISE=12, GRAVITY_CAP=4 jump lands the player's
// feet at enemy head height ~20 frames later, by which
// point the autopilot camera has scrolled the enemy under
// the player. Limited to AUTOPILOT_JUMPS hops per life so
// the third enemy encounter becomes a scripted death,
// giving the golden harness a visible game-over sequence.
if auto_jumps < AUTOPILOT_JUMPS {
if on_ground == 1 {
if e1_sx == 99 {
try_jump()
auto_jumps += 1
}
if e2_sx == 99 {
try_jump()
auto_jumps += 1
}
}
}
// ── Physics ──────────────────────────────────────────
step_physics()
// ── Coin pickups ─────────────────────────────────────
// Coin collect: player occupies [80..96). A coin is "hit"
// when its screen X is in [72..96) (8-px tolerance on each
// side of the player's left edge).
if c1_sx >= 72 and c1_sx < 96 {
if player_y <= COIN_Y + 16 {
play Ding
}
}
if c2_sx >= 72 and c2_sx < 96 {
if player_y <= COIN_Y + 16 {
play Ding
}
}
// ── Enemy collisions ────────────────────────────────
// Both enemies get the full stomp-or-die check; the helper
// mutates player state directly. If `alive` flips to 0
// we fall through the rest of the frame (drawing is
// guarded below) and transition to GameOver at the end.
resolve_enemy_hit(e1_sx)
resolve_enemy_hit(e2_sx)
// ── Drawing ──────────────────────────────────────────
// Enemies and coins are always drawn so the scene stays
// coherent even on the fatal-contact frame.
var ey: u8 = ENEMY_Y
if (anim_tick & 16) != 0 {
ey = ENEMY_Y - 2
}
draw Tileset at: (e1_sx, ey) frame: TILE_ENEMY
draw Tileset at: (e2_sx, ENEMY_Y) frame: TILE_ENEMY
var cy: u8 = COIN_Y
if (anim_tick & 8) != 0 {
cy = COIN_Y - 1
}
draw Tileset at: (c1_sx, cy) frame: TILE_COIN
draw Tileset at: (c2_sx, COIN_Y) frame: TILE_COIN
// Live HUD: draw one coin per stomp in the top-left. The
// background palette-1 region covers this strip so the
// sprite coins read correctly against the brick band.
if stomp_count >= 1 {
draw Tileset at: (16, 24) frame: TILE_COIN
}
if stomp_count >= 2 {
draw Tileset at: (28, 24) frame: TILE_COIN
}
if stomp_count >= 3 {
draw Tileset at: (40, 24) frame: TILE_COIN
}
if stomp_count >= 4 {
draw Tileset at: (52, 24) frame: TILE_COIN
}
// Player is only drawn while alive — on the dying frame
// we show the scene without the hero on top of the enemy
// that killed them, which reads as "player got got".
if alive == 1 {
draw_player()
}
// ── PPU scroll latch ─────────────────────────────────
// Write the scroll at the very end of the frame so it's
// the last $2005 pair before the implicit wait_frame /
// NMI handshake, minimizing mid-frame artifacts.
scroll(camera_x, 0)
// Fatal contact this frame → kick the state machine over
// to GameOver on the next frame.
if alive == 0 {
transition GameOver
}
}
}
state GameOver {
var linger: u8 = 0
on enter {
linger = 0
stop_music
}
on frame {
linger += 1
// "GAME OVER" marker: a row of enemy tiles across the
// middle of the screen, plus a live readout of how many
// stomps the player racked up before dying (drawn as
// coins right underneath). The death-screen backdrop is
// whatever Playing last scrolled to — we don't clear it.
draw Tileset at: (96, 112) frame: TILE_ENEMY
draw Tileset at: (112, 112) frame: TILE_ENEMY
draw Tileset at: (128, 112) frame: TILE_ENEMY
draw Tileset at: (144, 112) frame: TILE_ENEMY
if stomp_count >= 1 {
draw Tileset at: (96, 128) frame: TILE_COIN
}
if stomp_count >= 2 {
draw Tileset at: (112, 128) frame: TILE_COIN
}
if stomp_count >= 3 {
draw Tileset at: (128, 128) frame: TILE_COIN
}
if stomp_count >= 4 {
draw Tileset at: (144, 128) frame: TILE_COIN
}
// Auto-retry after ~1 s so the headless harness sees the
// full loop. A human can hit Start to retry immediately.
if linger >= 60 {
transition Playing
}
if button.start {
transition Playing
}
}
}
start Title