RhythmGame/NoteHandler.gd

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GDScript3
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extends "res://main.gd"
# This script will draw all note events.
var tex := preload("res://assets/spritesheet-4k.png")
var tex_judgement_text := preload("res://assets/text-4k.png")
var tex_slide_arrow := preload("res://assets/slide-arrow-4k.png")
var slide_trail_shadermaterial := preload("res://shaders/slidetrail.tres")
## Constants for the overall notefield
#var GameTheme.RADIAL_COL_ANGLES := PoolRealArray() # ideally const
#var GameTheme.RADIAL_UNIT_VECTORS := PoolVector2Array() # ideally const
#
#func init_radial_values():
# for i in range(Rules.COLS):
# var angle = deg2rad(fmod(Rules.FIRST_COLUMN_ANGLE_DEG + (i * Rules.COLS_ANGLE_DEG), 360.0))
# GameTheme.RADIAL_COL_ANGLES.push_back(angle)
# GameTheme.RADIAL_UNIT_VECTORS.push_back(Vector2(cos(angle), sin(angle)))
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const SQRT2 := sqrt(2)
const DEG45 := deg2rad(45.0)
const DEG90 := deg2rad(90.0)
const DEG135 := deg2rad(135.0)
var time := 0.0
var t := 0.0
var bpm := 120.0
var sync_offset_video := 0.0 # Time in seconds to the first beat
var sync_offset_audio := 0.0 # Time in seconds to the first beat
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var active_notes := []
var all_notes := []
var next_note_to_load := 0
var active_judgement_texts := []
var scores := {}
var slide_trail_meshes := {}
var slide_trail_mesh_instances := {}
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var noteline_array_image := Image.new()
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# UV vertex arrays for our sprites
# tap/star/arrow are 4-vertex 2-triangle simple squares
# hold is 8-vertex 6-triangle to enable stretching in the middle
const UV_ARRAY_TAP := PoolVector2Array([Vector2(0, 0.5), Vector2(0.5, 0.5), Vector2(0, 1), Vector2(0.5, 1)])
const UV_ARRAY_HOLD := PoolVector2Array([
Vector2(0.5, 0.5), Vector2(1, 0.5), Vector2(0.5, 0.75), Vector2(1, 0.75),
Vector2(0.5, 0.75), Vector2(1, 0.75), Vector2(0.5, 1), Vector2(1, 1)
])
const UV_ARRAY_STAR := PoolVector2Array([Vector2(0.5, 0), Vector2(1, 0), Vector2(0.5, 0.5), Vector2(1, 0.5)])
const UV_ARRAY_ARROW := PoolVector2Array([Vector2(0, 0), Vector2(0.5, 0), Vector2(0, 0.5), Vector2(0.5, 0.5)])
# Slide trail arrow. Single tri.
const UV_ARRAY_SLIDE_ARROW := PoolVector2Array([Vector2(0, 0), Vector2(1, 0), Vector2(0, 1)])
const UV_ARRAY_SLIDE_ARROW2 := PoolVector2Array([Vector2(1, 1), Vector2(0, 1), Vector2(1, 0)])
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# Normal vertex arrays for our sprites. Might be unnecessary?
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const DEFAULT_NORMAL := Vector3(0, 0, 1)
var NORMAL_ARRAY_4 := PoolVector3Array([DEFAULT_NORMAL, DEFAULT_NORMAL, DEFAULT_NORMAL, DEFAULT_NORMAL])
var NORMAL_ARRAY_8 := PoolVector3Array([
DEFAULT_NORMAL, DEFAULT_NORMAL, DEFAULT_NORMAL, DEFAULT_NORMAL,
DEFAULT_NORMAL, DEFAULT_NORMAL, DEFAULT_NORMAL, DEFAULT_NORMAL
])
# Text UVs
var text_UV_arrays := []
func make_text_UV(row: int, column: int) -> PoolVector2Array:
return PoolVector2Array([Vector2(column/4.0, row/8.0), Vector2((column+1)/4.0, row/8.0), Vector2(column/4.0, (row+1)/8.0), Vector2((column+1)/4.0, (row+1)/8.0)])
func make_text_UVs():
for row in 8:
for column in 4:
text_UV_arrays.append(make_text_UV(row, column))
enum TextStyle {STRAIGHT=0, ARC=1, ARC_EARLY=2, ARC_LATE=3}
enum TextWord {NICE=0, OK=4, NG=8, PERFECT=12, GREAT=16, GOOD=20, ALMOST=24, MISS=28}
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const TextJudgement := {
0: TextWord.PERFECT + TextStyle.ARC,
1: TextWord.GREAT + TextStyle.ARC_LATE,
-1: TextWord.GREAT + TextStyle.ARC_EARLY,
2: TextWord.GOOD + TextStyle.ARC_LATE,
-2: TextWord.GOOD + TextStyle.ARC_EARLY,
3: TextWord.ALMOST + TextStyle.ARC_LATE,
-3: TextWord.ALMOST + TextStyle.ARC_EARLY,
"MISS": TextWord.MISS + TextStyle.ARC
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}
func initialise_scores():
scores = {}
for type in [Note.NOTE_TAP, Note.NOTE_HOLD, Note.NOTE_SLIDE]:
scores[type] = {}
for key in TextJudgement:
scores[type][key] = 0
func make_text_mesh(mesh: ArrayMesh, text_id: int, pos: Vector2, angle: float, alpha:=1.0, scale:=1.0):
var r := GameTheme.judge_text_size2 * scale
var vertex_array := PoolVector2Array([
pos+polar2cartesian(r, angle+GameTheme.JUDGE_TEXT_ANG2), # TODO: fix this UV/vertex order mess
pos+polar2cartesian(r, angle+GameTheme.JUDGE_TEXT_ANG1),
pos+polar2cartesian(r, angle+GameTheme.JUDGE_TEXT_ANG4),
pos+polar2cartesian(r, angle+GameTheme.JUDGE_TEXT_ANG3)
])
var arrays = []
arrays.resize(Mesh.ARRAY_MAX)
arrays[Mesh.ARRAY_VERTEX] = vertex_array
arrays[Mesh.ARRAY_TEX_UV] = text_UV_arrays[text_id]
arrays[Mesh.ARRAY_COLOR] = GameTheme.color_array_text(alpha)
mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLE_STRIP, arrays)
func make_judgement_text(mesh: ArrayMesh, text_id: int, col: int, progress:=0.0):
make_text_mesh(mesh, text_id,
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GameTheme.RADIAL_UNIT_VECTORS[col] * GameTheme.receptor_ring_radius * lerp(0.85, 0.85*0.75, progress),
GameTheme.RADIAL_COL_ANGLES[col]-PI/2.0, lerp(1.0, 0.0, progress), lerp(1.0, 0.75, progress)
)
# ----------------------------------------------------------------------------------------------------------------------------------------------------
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# Helper functions to generate meshes from vertex arrays
func make_tap_mesh(mesh: ArrayMesh, note_center: Vector2, scale:=1.0, color_array:=GameTheme.COLOR_ARRAY_TAP):
var dim = GameTheme.sprite_size2 * scale
var vertex_array = PoolVector2Array([note_center + Vector2(-dim, -dim), note_center + Vector2(dim, -dim), note_center + Vector2(-dim, dim), note_center + Vector2(dim, dim)])
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var arrays = []
arrays.resize(Mesh.ARRAY_MAX)
arrays[Mesh.ARRAY_VERTEX] = vertex_array
# arrays[Mesh.ARRAY_NORMAL] = NORMAL_ARRAY_4
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arrays[Mesh.ARRAY_TEX_UV] = UV_ARRAY_TAP
arrays[Mesh.ARRAY_COLOR] = color_array
mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLE_STRIP, arrays)
func make_hold_mesh(mesh: ArrayMesh, note_center: Vector2, note_center_rel: Vector2, scale:=1.0, angle:=0.0, color_array = GameTheme.COLOR_ARRAY_HOLD):
var dim = GameTheme.sprite_size2 * scale
var dim2 = dim * SQRT2
var a1 = angle - DEG45
var a2 = angle + DEG45
var a3 = angle - DEG90
var a4 = angle + DEG90
var a5 = angle - DEG135
var a6 = angle + DEG135
var vertex_array = PoolVector2Array([
note_center + polar2cartesian(dim2, a1), note_center + polar2cartesian(dim2, a2),
note_center + polar2cartesian(dim, a3), note_center + polar2cartesian(dim, a4),
note_center_rel + polar2cartesian(dim, a3), note_center_rel + polar2cartesian(dim, a4),
note_center_rel + polar2cartesian(dim2, a5), note_center_rel + polar2cartesian(dim2, a6)
])
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var arrays = []
arrays.resize(Mesh.ARRAY_MAX)
arrays[Mesh.ARRAY_VERTEX] = vertex_array
# arrays[Mesh.ARRAY_NORMAL] = NORMAL_ARRAY_8
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arrays[Mesh.ARRAY_TEX_UV] = UV_ARRAY_HOLD
arrays[Mesh.ARRAY_COLOR] = color_array
mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLE_STRIP, arrays)
func make_star_mesh(mesh: ArrayMesh, note_center: Vector2, scale:=1.0, angle:=0.0, color_array:=GameTheme.COLOR_ARRAY_STAR):
var dim = GameTheme.sprite_size2 * scale * SQRT2
var a1 = angle - DEG45
var a2 = angle + DEG45
var a3 = angle - DEG135
var a4 = angle + DEG135
var vertex_array = PoolVector2Array([
note_center + polar2cartesian(dim, a1), note_center + polar2cartesian(dim, a2),
note_center + polar2cartesian(dim, a3), note_center + polar2cartesian(dim, a4)
])
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var arrays = []
arrays.resize(Mesh.ARRAY_MAX)
arrays[Mesh.ARRAY_VERTEX] = vertex_array
# arrays[Mesh.ARRAY_NORMAL] = NORMAL_ARRAY_4
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arrays[Mesh.ARRAY_TEX_UV] = UV_ARRAY_STAR
arrays[Mesh.ARRAY_COLOR] = color_array
mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLE_STRIP, arrays)
#func make_arrow_mesh(mesh: ArrayMesh, vertex_array, color_array = GameTheme.COLOR_ARRAY_TAP):
# var arrays = []
# arrays.resize(Mesh.ARRAY_MAX)
# arrays[Mesh.ARRAY_VERTEX] = vertex_array
## arrays[Mesh.ARRAY_NORMAL] = NORMAL_ARRAY_4
# arrays[Mesh.ARRAY_TEX_UV] = UV_ARRAY_ARROW
# arrays[Mesh.ARRAY_COLOR] = color_array
# mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLE_STRIP, arrays)
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const slide_arrows_per_unit_length := 10
func make_slide_trail_mesh(note) -> ArrayMesh:
# Generates a mesh centered around origin. Make sure the MeshInstance2D that draws this is centered on the screen.
var mesh = ArrayMesh.new()
var arrays = []
arrays.resize(Mesh.ARRAY_MAX)
var vertices := PoolVector2Array()
var uvs := PoolVector2Array()
var colors := PoolColorArray()
var size := GameTheme.sprite_size2
var color := Color(0.67, 0.67, 1.0)
if note.double_hit:
color = Color(1.0, 1.0, 0.35)
# First we need to determine how many arrows to leave.
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var trail_length : int = int(floor(note.get_slide_length() * slide_arrows_per_unit_length))
vertices.resize(3*trail_length)
# uvs.resize(3*trail_length)
colors.resize(3*trail_length)
for i in trail_length:
uvs.append_array(UV_ARRAY_SLIDE_ARROW if i%3 else UV_ARRAY_SLIDE_ARROW2)
for j in 3:
# uvs[i*3+j] = UV_ARRAY_SLIDE_ARROW[j] if i%2 else UV_ARRAY_SLIDE_ARROW2[j]
colors[i*3+j] = Color(color.r, color.g, color.b, (1.0+float(i))/float(trail_length))
match note.slide_type:
Note.SlideType.CHORD:
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var angle : float = note.get_angle(0)
var uv1o : Vector2 = polar2cartesian(size, angle)
var uv2o : Vector2 = polar2cartesian(size, angle+PI/2.0)
var uv3o : Vector2 = polar2cartesian(size, angle-PI/2.0)
for i in trail_length:
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var offset : Vector2 = note.get_position((i+1)/float(trail_length))
vertices[i*3] = offset + uv1o
vertices[i*3+1] = offset + uv2o
vertices[i*3+2] = offset + uv3o
Note.SlideType.ARC_CW:
for i in trail_length:
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var angle : float = note.get_angle((i+1)/float(trail_length))
var offset : Vector2 = note.get_position((i+1)/float(trail_length))
vertices[i*3] = offset + polar2cartesian(size, angle)
vertices[i*3+1] = offset + polar2cartesian(size, angle+PI/2.0)
vertices[i*3+2] = offset + polar2cartesian(size, angle-PI/2.0)
Note.SlideType.ARC_ACW:
for i in trail_length:
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var angle : float = note.get_angle((i+1)/float(trail_length))
var offset : Vector2 = note.get_position((i+1)/float(trail_length))
vertices[i*3] = offset + polar2cartesian(size, angle)
vertices[i*3+1] = offset + polar2cartesian(size, angle+PI/2.0)
vertices[i*3+2] = offset + polar2cartesian(size, angle-PI/2.0)
arrays[Mesh.ARRAY_VERTEX] = vertices
arrays[Mesh.ARRAY_TEX_UV] = uvs
arrays[Mesh.ARRAY_COLOR] = colors
mesh.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLES, arrays)
return mesh
#----------------------------------------------------------------------------------------------------------------------------------------------
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func activate_note(note, judgement):
active_judgement_texts.append({col=note.column, judgement=judgement, time=t})
scores[note.type][judgement] += 1
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note.time_activated = t
match note.type:
Note.NOTE_HOLD:
note.is_held = true
Note.NOTE_SLIDE:
pass # Set up slide trail?
return
func button_pressed(col):
for note in active_notes:
if note.column != col:
continue
if note.time_activated != INF:
continue
var hit_delta = (t - note.time_hit) * 60.0/bpm # Judgement times are in seconds not gametime
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if hit_delta >= 0.0:
if hit_delta > Rules.JUDGEMENT_TIMES_POST[-1]:
continue # missed
for i in Rules.JUDGEMENT_TIERS:
if hit_delta <= Rules.JUDGEMENT_TIMES_POST[i]:
activate_note(note, i)
return
else:
if -hit_delta > Rules.JUDGEMENT_TIMES_PRE[-1]:
continue # too far away
for i in Rules.JUDGEMENT_TIERS:
if -hit_delta <= Rules.JUDGEMENT_TIMES_POST[i]:
activate_note(note, -i)
return
func touchbutton_pressed(col):
button_pressed(col)
func check_hold_release(col):
for note in active_notes:
if note.column != col:
continue
if note.type == Note.NOTE_HOLD:
if note.is_held == true:
note.is_held = false
pass
func button_released(col):
# We only care about hold release.
# For that particular case, we want both to be unheld.
if $"/root/main/InputHandler".touchbuttons_pressed[col] == 0:
check_hold_release(col)
func touchbutton_released(col):
if $"/root/main/InputHandler".buttons_pressed[col] == 0:
check_hold_release(col)
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#----------------------------------------------------------------------------------------------------------------------------------------------
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func _draw():
var mesh := ArrayMesh.new()
var noteline_data : Image = noteline_array_image.get_rect(Rect2(0, 0, 16, 16))
noteline_data.lock()
var i := 0
var j := 0
for note in active_notes:
var position : float = (t+GameTheme.note_forecast_beats-note.time_hit)/GameTheme.note_forecast_beats
var scale := 1.0
noteline_data.set_pixel(i%16, i/16, Color(position, note.column, GameTheme.RADIAL_COL_ANGLES[note.column]))
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i += 1
if position < GameTheme.INNER_NOTE_CIRCLE_RATIO:
scale *= position/GameTheme.INNER_NOTE_CIRCLE_RATIO
position = GameTheme.INNER_NOTE_CIRCLE_RATIO
var note_center = (GameTheme.RADIAL_UNIT_VECTORS[note.column] * position * GameTheme.receptor_ring_radius)
var color: PoolColorArray
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match note.type:
Note.NOTE_TAP:
if note.time_hit >= t:
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color = GameTheme.color_array_tap(1.0, note.double_hit)
else:
color = GameTheme.color_array_tap(clamp((note.time_death-t)/Note.DEATH_DELAY, 0.0, 1.0), note.double_hit)
make_tap_mesh(mesh, note_center, scale, color)
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Note.NOTE_HOLD:
color = GameTheme.COLOR_ARRAY_DOUBLE_8 if note.double_hit else GameTheme.COLOR_ARRAY_HOLD
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if note.is_held:
color = GameTheme.COLOR_ARRAY_HOLD_HELD
var position_rel : float = (t+GameTheme.note_forecast_beats-note.time_release)/GameTheme.note_forecast_beats
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if position_rel > 0:
var note_rel_center := (GameTheme.RADIAL_UNIT_VECTORS[note.column] * position_rel * GameTheme.receptor_ring_radius)
noteline_data.set_pixel(j%16, 15, Color(position_rel, note.column, GameTheme.RADIAL_COL_ANGLES[note.column]))
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j += 1
if position_rel < GameTheme.INNER_NOTE_CIRCLE_RATIO:
position_rel = GameTheme.INNER_NOTE_CIRCLE_RATIO
var note_center_rel = (GameTheme.RADIAL_UNIT_VECTORS[note.column] * position_rel * GameTheme.receptor_ring_radius)
make_hold_mesh(mesh, note_center, note_center_rel, scale, GameTheme.RADIAL_COL_ANGLES[note.column], color)
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Note.NOTE_SLIDE:
color = GameTheme.COLOR_ARRAY_DOUBLE_4 if note.double_hit else GameTheme.COLOR_ARRAY_STAR
var angle = fmod(t/note.duration, 1.0)*TAU
make_star_mesh(mesh, note_center, scale, angle, color)
var trail_alpha := 1.0
if position < GameTheme.INNER_NOTE_CIRCLE_RATIO:
trail_alpha = 0.0
elif position < 1.0:
trail_alpha = min(1.0, (position-GameTheme.INNER_NOTE_CIRCLE_RATIO)/(1-GameTheme.INNER_NOTE_CIRCLE_RATIO*2))
else:
var trail_progress : float = clamp((t - note.time_hit - GameTheme.SLIDE_DELAY)/(note.duration - GameTheme.SLIDE_DELAY), 0.0, 1.0)
var star_pos : Vector2 = note.get_position(trail_progress)
var star_angle : float = note.get_angle(trail_progress)
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make_star_mesh(mesh, star_pos, 1.33, star_angle, color)
# slide_trail_mesh_instances[note.slide_id].material.set_shader_param("trail_progress", trail_progress)
if t > note.time_release:
trail_alpha = max(1 - (t - note.time_release)/Note.DEATH_DELAY, 0.0)
slide_trail_mesh_instances[note.slide_id].material.set_shader_param("base_alpha", trail_alpha*0.88)
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noteline_data.unlock()
var noteline_data_tex = ImageTexture.new()
noteline_data_tex.create_from_image(noteline_data, 0)
$notelines.set_texture(noteline_data_tex)
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$meshinstance.set_mesh(mesh)
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# draw_mesh(mesh, tex)
var textmesh := ArrayMesh.new()
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# make_judgement_text(textmesh, TextWord.PERFECT+TextStyle.ARC, 0, fmod(t, 1.0))
# make_judgement_text(textmesh, TextWord.GREAT+TextStyle.ARC_LATE, 1, ease(fmod(t, 1.0), 1.25))
# make_judgement_text(textmesh, TextWord.GOOD+TextStyle.ARC_EARLY, 2, clamp(fmod(t, 2.0)-1, 0, 1))
# make_judgement_text(textmesh, TextWord.ALMOST+TextStyle.ARC_LATE, 3, ease(clamp(fmod(t, 2.0)-1, 0, 1), 1.25))
# make_judgement_text(textmesh, TextWord.MISS+TextStyle.ARC, 4, clamp(fmod(t, 2.0)-0.5, 0, 1))
# make_judgement_text(textmesh, TextWord.NICE+TextStyle.ARC, 5, ease(clamp(fmod(t, 2.0)-0.5, 0, 1), 1.25))
# make_judgement_text(textmesh, TextWord.OK+TextStyle.ARC, 6, fmod(t, 2.0)*0.5)
# make_judgement_text(textmesh, TextWord.NG+TextStyle.ARC, 7, ease(fmod(t, 2.0)*0.5, 1.25))
for text in active_judgement_texts:
make_judgement_text(textmesh, TextJudgement[text.judgement], text.col, (t-text.time)/GameTheme.judge_text_duration)
$JudgeText.set_mesh(textmesh)
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func _init():
Input.set_mouse_mode(Input.MOUSE_MODE_HIDDEN)
GameTheme.init_radial_values()
make_text_UVs()
initialise_scores()
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# Called when the node enters the scene tree for the first time.
func _ready():
t = 0.0
time = -2.0
bpm = 120.0
active_notes = []
all_notes = []
next_note_to_load = 0
$meshinstance.material.set_shader_param("star_color", GameTheme.COLOR_STAR)
$meshinstance.material.set_shader_param("held_color", GameTheme.COLOR_HOLD_HELD)
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$meshinstance.material.set_shader_param("bps", bpm/60.0)
$meshinstance.material.set_shader_param("screen_size", get_viewport().get_size())
$meshinstance.set_texture(tex)
var rec_scale1 = (float(screen_height)/float(GameTheme.receptor_ring_radius))*0.5
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var uv_array_playfield := PoolVector2Array([Vector2(-1.0, -1.0)*rec_scale1, Vector2(-1.0, 1.0)*rec_scale1, Vector2(1.0, -1.0)*rec_scale1, Vector2(1.0, 1.0)*rec_scale1])
# var vertex_array_playfield := PoolVector2Array([
# Vector2(x_margin, screen_height), Vector2(x_margin, 0.0),
# Vector2(x_margin+screen_height, screen_height), Vector2(x_margin+screen_height, 0.0)])
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var vertex_array_playfield := PoolVector2Array([
Vector2(-screen_height/2.0, screen_height/2.0), Vector2(-screen_height/2.0, -screen_height/2.0),
Vector2(screen_height/2.0, screen_height/2.0), Vector2(screen_height/2.0, -screen_height/2.0)])
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var mesh_playfield := ArrayMesh.new()
var arrays = []
arrays.resize(Mesh.ARRAY_MAX)
arrays[Mesh.ARRAY_VERTEX] = vertex_array_playfield
arrays[Mesh.ARRAY_NORMAL] = NORMAL_ARRAY_4
arrays[Mesh.ARRAY_TEX_UV] = uv_array_playfield
mesh_playfield.add_surface_from_arrays(Mesh.PRIMITIVE_TRIANGLE_STRIP, arrays)
$notelines.set_mesh(mesh_playfield)
$notelines.material.set_shader_param("bps", bpm/60.0)
noteline_array_image.create(16, 16, false, Image.FORMAT_RGBF)
noteline_array_image.fill(Color(0.0, 0.0, 0.0))
# Format: first 15 rows are for hit events, last row is for releases only (no ring glow)
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# all_notes = FileLoader.SRT.load_file("res://songs/199_cirno_master.srt")
all_notes = FileLoader.SRT.load_file("res://songs/199_cirno_adv.srt")
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bpm = 175.0
sync_offset_audio = 0.553
sync_offset_video = 0.553
# all_notes = FileLoader.Test.stress_pattern()
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Note.process_note_list(all_notes)
for note in all_notes:
if note.type == Note.NOTE_SLIDE:
slide_trail_meshes[note.slide_id] = make_slide_trail_mesh(note)
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$"/root/main/InputHandler".connect("button_pressed", self, "button_pressed")
$"/root/main/InputHandler".connect("touchbutton_pressed", self, "touchbutton_pressed")
$"/root/main/InputHandler".connect("button_released", self, "button_released")
$"/root/main/InputHandler".connect("touchbutton_released", self, "touchbutton_released")
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func game_time(realtime: float) -> float:
return time * bpm / 60.0
func video_start_time() -> float:
# We give a 4 beat delay until the first note of the chart. Should have a sound for each beat.
var four_beats := 4.0 * 60.0/bpm
return four_beats - sync_offset_video
func audio_start_time() -> float:
var four_beats := 4.0 * 60.0/bpm
return four_beats - sync_offset_audio
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# Called every frame. 'delta' is the elapsed time since the previous frame.
func _process(delta):
$meshinstance.material.set_shader_param("bps", bpm/60.0)
$notelines.material.set_shader_param("bps", bpm/60.0)
var t_old := game_time(time)
time += delta
t = game_time(time)
# if (t_old < 0) and (t >= 0):
# get_node("/root/main/video").play()
var vt_delta := time - video_start_time()
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if (0.0 <= vt_delta) and (vt_delta < 1.0) and not get_node("/root/main/video").is_playing():
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get_node("/root/main/video").play()
get_node("/root/main/video").set_stream_position(vt_delta)
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# Clean out expired notes
var miss_time: float = Rules.JUDGEMENT_TIMES_POST[-1] * bpm/60.0
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for i in range(len(active_notes)-1, -1, -1):
var note = active_notes[i]
if note.time_death < t:
if note.type == Note.NOTE_SLIDE:
$SlideTrailHandler.remove_child(slide_trail_mesh_instances[note.slide_id])
slide_trail_mesh_instances.erase(note.slide_id)
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active_notes.remove(i)
elif note.time_activated == INF:
if ((t-note.time_hit) > miss_time) and not note.missed:
active_judgement_texts.append({col=note.column, judgement="MISS", time=t})
scores[note.type]["MISS"] += 1
note.missed = true
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# Clean out expired judgement texts
# By design they will always be in order so we can ignore anything past the first index
while (len(active_judgement_texts) > 0) and ((t-active_judgement_texts[0].time) > GameTheme.judge_text_duration):
active_judgement_texts.pop_front()
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# Add new notes as necessary
while true:
if next_note_to_load >= len(all_notes):
# All notes have been loaded, maybe do something
break
if all_notes[next_note_to_load].time_hit > (t + GameTheme.note_forecast_beats):
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# Next chronological note isn't ready to load yet
break
# Next chronological note is ready to load, load it
var note = all_notes[next_note_to_load]
active_notes.push_back(note)
if note.type == Note.NOTE_SLIDE:
var meshi = MeshInstance2D.new()
meshi.set_mesh(slide_trail_meshes[note.slide_id])
meshi.set_material(slide_trail_shadermaterial.duplicate())
meshi.material.set_shader_param("trail_progress", 0.0)
meshi.set_texture(tex_slide_arrow)
slide_trail_mesh_instances[note.slide_id] = meshi
$SlideTrailHandler.add_child(meshi)
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next_note_to_load += 1
# DEBUG: Reset after all notes are done
# if (len(active_notes) < 1) and (next_note_to_load >= len(all_notes)) and (time > 10.0) and not get_node("/root/main/video").is_playing():
# time = -10.0
# next_note_to_load = 0
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# Redraw
$meshinstance.material.set_shader_param("screen_size", get_viewport().get_size())
update()