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use std::{
fmt,
io::Error as ioError,
num::{ParseFloatError, ParseIntError},
result,
};
use crate::io::*;
pub enum ErrorKind {
MinMaxSwapped,
MinMaxEqual,
TooFewPoints,
BoundingBoxMissing,
NormalizeVecWithoutLength,
IOError,
ParseError,
IndexOutOfBounds,
IncorrectFaceID,
IncorrectVertexID,
IncorrectEdgeID,
IncorrectVoxelID,
IncorrectUnitID,
IncorrectSegmentID,
IncorrectDimension,
DimensionsDontMatch,
NumberConversionError,
NumberInWrongRange,
ComparisionFailed,
ClusterTooBig,
CantCalculateAngleIfZeroLength,
TriFace3DNotSpanningVolume,
PlyError(PlyError),
StlError(StlError),
PtxError(PtxError),
XyError(XyError),
XyzError(XyzError),
ObjError(ObjError),
OffError(OffError),
PslError(PslError),
GcodeError(GcodeError),
}
impl fmt::Debug for ErrorKind {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
Self::MinMaxSwapped => write!(f, "Passed min/max values are swapped (min > max)"),
Self::MinMaxEqual => write!(f, "Passed min/max values are equal"),
Self::TooFewPoints => write!(f, "Container had too few points for the operation"),
Self::BoundingBoxMissing => write!(f, "Bounding box is missing for the operation"),
Self::NormalizeVecWithoutLength => write!(f, "Can't normalize a vector of length 0"),
Self::IOError => write!(f, "Can't read or write a file"),
Self::ParseError => write!(f, "Can't parse data"),
Self::IndexOutOfBounds => write!(f, "Tried to access an out of bounds index"),
Self::IncorrectFaceID => write!(f, "Used an incorrect face id"),
Self::IncorrectVertexID => write!(f, "Used an incorrect vertex id"),
Self::IncorrectEdgeID => write!(f, "Used an incorrect edge id"),
Self::IncorrectVoxelID => write!(f, "Used an incorrect voxel id"),
Self::IncorrectUnitID => write!(f, "Used an incorrect unit id"),
Self::IncorrectSegmentID => write!(f, "Used an incorrect segment id"),
Self::IncorrectDimension => write!(f, "Trying to access an incorrect dimension"),
Self::DimensionsDontMatch => write!(f, "Trying to mix types with different dimensions"),
Self::NumberConversionError => {
write!(f, "Failed converting one number type to another")
}
Self::NumberInWrongRange => write!(f, "Passed number is within the wrong range"),
Self::ComparisionFailed => write!(f, "Comparision between two values failed"),
Self::CantCalculateAngleIfZeroLength => {
write!(f, "Can't calculate the angle between 0 vectors")
}
Self::ClusterTooBig => write!(f, "Clustering size is too big for given mesh"),
Self::TriFace3DNotSpanningVolume => write!(
f,
"TriFace3D must be constructed from points spanning a volume"
),
Self::PlyError(x) => x.fmt(f),
Self::StlError(x) => x.fmt(f),
Self::PtxError(x) => x.fmt(f),
Self::XyError(x) => x.fmt(f),
Self::XyzError(x) => x.fmt(f),
Self::ObjError(x) => x.fmt(f),
Self::OffError(x) => x.fmt(f),
Self::PslError(x) => x.fmt(f),
Self::GcodeError(x) => x.fmt(f),
}
}
}
pub type Result<T> = result::Result<T, ErrorKind>;
impl From<ParseFloatError> for ErrorKind {
fn from(_error: ParseFloatError) -> Self {
ErrorKind::ParseError
}
}
impl From<ParseIntError> for ErrorKind {
fn from(_error: ParseIntError) -> ErrorKind {
ErrorKind::ParseError
}
}
impl From<ioError> for ErrorKind {
fn from(_error: ioError) -> Self {
ErrorKind::IOError
}
}
impl From<PlyError> for ErrorKind {
fn from(error: PlyError) -> Self {
Self::PlyError(error)
}
}
impl From<StlError> for ErrorKind {
fn from(error: StlError) -> Self {
Self::StlError(error)
}
}
impl From<XyError> for ErrorKind {
fn from(error: XyError) -> Self {
Self::XyError(error)
}
}
impl From<XyzError> for ErrorKind {
fn from(error: XyzError) -> Self {
Self::XyzError(error)
}
}
impl From<ObjError> for ErrorKind {
fn from(error: ObjError) -> Self {
Self::ObjError(error)
}
}
impl From<OffError> for ErrorKind {
fn from(error: OffError) -> Self {
Self::OffError(error)
}
}
impl From<GcodeError> for ErrorKind {
fn from(error: GcodeError) -> Self {
Self::GcodeError(error)
}
}