refactor(M03): extract M2 placement transform resolver

This commit is contained in:
2026-07-16 23:51:59 +04:00
parent 91f0ba8433
commit 0a09d7bc1e
9 changed files with 573 additions and 90 deletions
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class_name M2PlacementTransformResolver
extends RefCounted
## Stateless ADT M2 placement orientation and origin-correction rules.
const CLIFFROCK_WORLD_YAW_OFFSET := PI
const WATERFALL_WORLD_YAW_OFFSET := PI * 0.5
## Resolves the unscaled Godot-space basis for one ADT M2 placement.
func resolve_basis(rotation_radians: Vector3, relative_m2_path: String = "") -> Basis:
if not _is_waterfall_path(relative_m2_path):
return _resolve_regular_basis(rotation_radians, relative_m2_path)
var placement_basis := Basis.from_euler(rotation_radians)
return (
Basis(Vector3.UP, WATERFALL_WORLD_YAW_OFFSET)
* placement_basis
* Basis(
_resolve_waterfall_local_fall_axis(relative_m2_path),
_resolve_waterfall_sheet_twist(relative_m2_path)
)
)
## Resolves local origin compensation for a twisted waterfall sheet. Regular
## models and waterfall models without a measured anchor return zero.
func resolve_origin_offset(
rotation_radians: Vector3,
relative_m2_path: String,
scale_value: float
) -> Vector3:
if not _is_waterfall_path(relative_m2_path):
return Vector3.ZERO
var twist_radians := _resolve_waterfall_sheet_twist(relative_m2_path)
if is_zero_approx(twist_radians):
return Vector3.ZERO
var anchor_local_position := _resolve_waterfall_sheet_twist_anchor(relative_m2_path)
if anchor_local_position == Vector3.ZERO:
return Vector3.ZERO
var placement_basis := (
Basis(Vector3.UP, WATERFALL_WORLD_YAW_OFFSET)
* Basis.from_euler(rotation_radians)
)
var twisted_basis := placement_basis * Basis(
_resolve_waterfall_local_fall_axis(relative_m2_path),
twist_radians
)
return (
placement_basis * anchor_local_position
- twisted_basis * anchor_local_position
) * maxf(scale_value, 0.0001)
func _resolve_regular_basis(rotation_radians: Vector3, relative_m2_path: String) -> Basis:
if not _is_elwynn_cliffrock_path(relative_m2_path):
return Basis.from_euler(rotation_radians)
return (
Basis(Vector3.UP, rotation_radians.y + CLIFFROCK_WORLD_YAW_OFFSET)
* Basis(Vector3.BACK, rotation_radians.x)
* Basis(Vector3.RIGHT, -rotation_radians.z)
)
func _is_waterfall_path(relative_m2_path: String) -> bool:
var model_name := _normalized_model_name(relative_m2_path)
return model_name == "newwaterfall" or model_name == "elwynntallwaterfall01"
func _is_elwynn_cliffrock_path(relative_m2_path: String) -> bool:
var model_name := _normalized_model_name(relative_m2_path)
return model_name == "elwynncliffrock01" or model_name == "elwynncliffrock02"
func _normalized_model_name(relative_m2_path: String) -> String:
return relative_m2_path.replace("\\", "/").to_lower().get_file().get_basename()
func _resolve_waterfall_local_fall_axis(relative_m2_path: String) -> Vector3:
var normalized_path := relative_m2_path.replace("\\", "/").to_lower()
if normalized_path.ends_with("newwaterfall.m2") or normalized_path.ends_with("newwaterfall.mdx"):
return Vector3(-0.138742, 0.990329, 0.0).normalized()
if (
normalized_path.ends_with("elwynntallwaterfall01.m2")
or normalized_path.ends_with("elwynntallwaterfall01.mdx")
):
return Vector3(-0.068962, 0.997619, 0.0).normalized()
return Vector3.UP
func _resolve_waterfall_sheet_twist(relative_m2_path: String) -> float:
var normalized_path := relative_m2_path.replace("\\", "/").to_lower()
if normalized_path.ends_with("newwaterfall.m2") or normalized_path.ends_with("newwaterfall.mdx"):
return PI * 0.5
if (
normalized_path.ends_with("elwynntallwaterfall01.m2")
or normalized_path.ends_with("elwynntallwaterfall01.mdx")
):
return -PI * 0.5
return 0.0
func _resolve_waterfall_sheet_twist_anchor(relative_m2_path: String) -> Vector3:
var normalized_path := relative_m2_path.replace("\\", "/").to_lower()
if (
normalized_path.ends_with("elwynntallwaterfall01.m2")
or normalized_path.ends_with("elwynntallwaterfall01.mdx")
):
return Vector3(-2.667799, 89.62273, 0.00129)
return Vector3.ZERO
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uid://bcnmp7y8ph3qa