rustyfit 0.5.0

// Code generated by fitgen/main.go. DO NOT EDIT.

// Copyright 2025 The RustyFIT Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.

#![allow(unused, clippy::comparison_to_empty, clippy::manual_range_patterns)]

use crate::profile::{ProfileType, typedef};
use crate::proto::*;

#[derive(Debug, Clone)]
/// Split is a Split message.
pub struct Split {
    pub message_index: typedef::MessageIndex,
    pub split_type: typedef::SplitType,
    /// Scale: 1000; Units: s
    pub total_elapsed_time: u32,
    /// Scale: 1000; Units: s
    pub total_timer_time: u32,
    /// Scale: 100; Units: m
    pub total_distance: u32,
    /// Scale: 1000; Units: m/s
    pub avg_speed: u32,
    pub start_time: typedef::DateTime,
    /// Units: m
    pub total_ascent: u16,
    /// Units: m
    pub total_descent: u16,
    /// Units: semicircles
    pub start_position_lat: i32,
    /// Units: semicircles
    pub start_position_long: i32,
    /// Units: semicircles
    pub end_position_lat: i32,
    /// Units: semicircles
    pub end_position_long: i32,
    /// Scale: 1000; Units: m/s
    pub max_speed: u32,
    /// Scale: 1000; Units: m/s
    pub avg_vert_speed: i32,
    pub end_time: typedef::DateTime,
    /// Units: kcal
    pub total_calories: u32,
    /// Scale: 5; Offset: 500; Units: m
    pub start_elevation: u32,
    /// Scale: 1000; Units: s
    pub total_moving_time: u32,
    /// unknown_fields are fields that are exist but they are not defined in Profile.xlsx
    pub unknown_fields: Vec<Field>,
    /// developer_fields are custom data fields (Added since protocol version 2.0)
    pub developer_fields: Vec<DeveloperField>,
}

impl Split {
    /// Value's type: `u16`
    pub const MESSAGE_INDEX: u8 = 254;
    /// Value's type: `u8`
    pub const SPLIT_TYPE: u8 = 0;
    /// Value's type: `u32`; Scale: `1000`; Units: `s`
    pub const TOTAL_ELAPSED_TIME: u8 = 1;
    /// Value's type: `u32`; Scale: `1000`; Units: `s`
    pub const TOTAL_TIMER_TIME: u8 = 2;
    /// Value's type: `u32`; Scale: `100`; Units: `m`
    pub const TOTAL_DISTANCE: u8 = 3;
    /// Value's type: `u32`; Scale: `1000`; Units: `m/s`
    pub const AVG_SPEED: u8 = 4;
    /// Value's type: `u32`
    pub const START_TIME: u8 = 9;
    /// Value's type: `u16`; Units: `m`
    pub const TOTAL_ASCENT: u8 = 13;
    /// Value's type: `u16`; Units: `m`
    pub const TOTAL_DESCENT: u8 = 14;
    /// Value's type: `i32`; Units: `semicircles`
    pub const START_POSITION_LAT: u8 = 21;
    /// Value's type: `i32`; Units: `semicircles`
    pub const START_POSITION_LONG: u8 = 22;
    /// Value's type: `i32`; Units: `semicircles`
    pub const END_POSITION_LAT: u8 = 23;
    /// Value's type: `i32`; Units: `semicircles`
    pub const END_POSITION_LONG: u8 = 24;
    /// Value's type: `u32`; Scale: `1000`; Units: `m/s`
    pub const MAX_SPEED: u8 = 25;
    /// Value's type: `i32`; Scale: `1000`; Units: `m/s`
    pub const AVG_VERT_SPEED: u8 = 26;
    /// Value's type: `u32`
    pub const END_TIME: u8 = 27;
    /// Value's type: `u32`; Units: `kcal`
    pub const TOTAL_CALORIES: u8 = 28;
    /// Value's type: `u32`; Scale: `5`; Offset: `500`; Units: `m`
    pub const START_ELEVATION: u8 = 74;
    /// Value's type: `u32`; Scale: `1000`; Units: `s`
    pub const TOTAL_MOVING_TIME: u8 = 110;

    /// Create new Split with all fields being set to its corresponding invalid value.
    pub const fn new() -> Self {
        Self {
            message_index: typedef::MessageIndex(u16::MAX),
            split_type: typedef::SplitType(u8::MAX),
            total_elapsed_time: u32::MAX,
            total_timer_time: u32::MAX,
            total_distance: u32::MAX,
            avg_speed: u32::MAX,
            start_time: typedef::DateTime(u32::MAX),
            total_ascent: u16::MAX,
            total_descent: u16::MAX,
            start_position_lat: i32::MAX,
            start_position_long: i32::MAX,
            end_position_lat: i32::MAX,
            end_position_long: i32::MAX,
            max_speed: u32::MAX,
            avg_vert_speed: i32::MAX,
            end_time: typedef::DateTime(u32::MAX),
            total_calories: u32::MAX,
            start_elevation: u32::MAX,
            total_moving_time: u32::MAX,
            unknown_fields: Vec::new(),
            developer_fields: Vec::new(),
        }
    }

    /// Returns `total_elapsed_time` in its scaled value. It returns invalid f64 when value is valid.
    pub fn total_elapsed_time_scaled(&self) -> f64 {
        if self.total_elapsed_time == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.total_elapsed_time as f64 / 1000.0 - 0.0
    }

    /// Set `total_elapsed_time` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_total_elapsed_time_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 1000.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.total_elapsed_time = u32::MAX;
            return self;
        }
        self.total_elapsed_time = unscaled as u32;
        self
    }

    /// Returns `total_timer_time` in its scaled value. It returns invalid f64 when value is valid.
    pub fn total_timer_time_scaled(&self) -> f64 {
        if self.total_timer_time == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.total_timer_time as f64 / 1000.0 - 0.0
    }

    /// Set `total_timer_time` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_total_timer_time_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 1000.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.total_timer_time = u32::MAX;
            return self;
        }
        self.total_timer_time = unscaled as u32;
        self
    }

    /// Returns `total_distance` in its scaled value. It returns invalid f64 when value is valid.
    pub fn total_distance_scaled(&self) -> f64 {
        if self.total_distance == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.total_distance as f64 / 100.0 - 0.0
    }

    /// Set `total_distance` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_total_distance_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 100.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.total_distance = u32::MAX;
            return self;
        }
        self.total_distance = unscaled as u32;
        self
    }

    /// Returns `avg_speed` in its scaled value. It returns invalid f64 when value is valid.
    pub fn avg_speed_scaled(&self) -> f64 {
        if self.avg_speed == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.avg_speed as f64 / 1000.0 - 0.0
    }

    /// Set `avg_speed` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_avg_speed_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 1000.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.avg_speed = u32::MAX;
            return self;
        }
        self.avg_speed = unscaled as u32;
        self
    }

    /// Returns `max_speed` in its scaled value. It returns invalid f64 when value is valid.
    pub fn max_speed_scaled(&self) -> f64 {
        if self.max_speed == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.max_speed as f64 / 1000.0 - 0.0
    }

    /// Set `max_speed` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_max_speed_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 1000.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.max_speed = u32::MAX;
            return self;
        }
        self.max_speed = unscaled as u32;
        self
    }

    /// Returns `avg_vert_speed` in its scaled value. It returns invalid f64 when value is valid.
    pub fn avg_vert_speed_scaled(&self) -> f64 {
        if self.avg_vert_speed == i32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.avg_vert_speed as f64 / 1000.0 - 0.0
    }

    /// Set `avg_vert_speed` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_avg_vert_speed_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 1000.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > i32::MAX as f64 {
            self.avg_vert_speed = i32::MAX;
            return self;
        }
        self.avg_vert_speed = unscaled as i32;
        self
    }

    /// Returns `start_elevation` in its scaled value. It returns invalid f64 when value is valid.
    pub fn start_elevation_scaled(&self) -> f64 {
        if self.start_elevation == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.start_elevation as f64 / 5.0 - 500.0
    }

    /// Set `start_elevation` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_start_elevation_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 500.0) * 5.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.start_elevation = u32::MAX;
            return self;
        }
        self.start_elevation = unscaled as u32;
        self
    }

    /// Returns `total_moving_time` in its scaled value. It returns invalid f64 when value is valid.
    pub fn total_moving_time_scaled(&self) -> f64 {
        if self.total_moving_time == u32::MAX {
            return f64::from_bits(u64::MAX);
        }
        self.total_moving_time as f64 / 1000.0 - 0.0
    }

    /// Set `total_moving_time` with scaled value, it will automatically be converted to its corresponding integer value.
    pub fn set_total_moving_time_scaled(&mut self, v: f64) -> &mut Split {
        let unscaled = (v + 0.0) * 1000.0;
        if unscaled.is_nan() || unscaled.is_infinite() || unscaled > u32::MAX as f64 {
            self.total_moving_time = u32::MAX;
            return self;
        }
        self.total_moving_time = unscaled as u32;
        self
    }
}

impl Default for Split {
    fn default() -> Self {
        Self::new()
    }
}

impl From<&Message> for Split {
    /// from creates new Split struct based on given mesg.
    fn from(mesg: &Message) -> Self {
        let mut vals: [&Value; 255] = [const { &Value::Invalid }; 255];

        const KNOWN_NUMS: [u64; 4] = [534798879, 70368744178688, 0, 4611686018427387904];
        let mut n = 0u64;
        for field in &mesg.fields {
            n += (KNOWN_NUMS[field.num as usize >> 6] >> (field.num & 63)) & 1 ^ 1
        }
        let mut unknown_fields: Vec<Field> = Vec::with_capacity(n as usize);

        for field in &mesg.fields {
            if (KNOWN_NUMS[field.num as usize >> 6] >> (field.num & 63)) & 1 == 0 {
                unknown_fields.push(field.clone());
                continue;
            }
            vals[field.num as usize] = &field.value;
        }

        Self {
            message_index: typedef::MessageIndex(vals[254].as_u16()),
            split_type: typedef::SplitType(vals[0].as_u8()),
            total_elapsed_time: vals[1].as_u32(),
            total_timer_time: vals[2].as_u32(),
            total_distance: vals[3].as_u32(),
            avg_speed: vals[4].as_u32(),
            start_time: typedef::DateTime(vals[9].as_u32()),
            total_ascent: vals[13].as_u16(),
            total_descent: vals[14].as_u16(),
            start_position_lat: vals[21].as_i32(),
            start_position_long: vals[22].as_i32(),
            end_position_lat: vals[23].as_i32(),
            end_position_long: vals[24].as_i32(),
            max_speed: vals[25].as_u32(),
            avg_vert_speed: vals[26].as_i32(),
            end_time: typedef::DateTime(vals[27].as_u32()),
            total_calories: vals[28].as_u32(),
            start_elevation: vals[74].as_u32(),
            total_moving_time: vals[110].as_u32(),
            unknown_fields,
            developer_fields: mesg.developer_fields.clone(),
        }
    }
}

impl From<Split> for Message {
    fn from(m: Split) -> Self {
        let mut arr = [const {
            Field {
                num: 0,
                profile_type: ProfileType(0),
                value: Value::Invalid,
                is_expanded: false,
            }
        }; 19];
        let mut len = 0usize;

        if m.message_index != typedef::MessageIndex(u16::MAX) {
            arr[len] = Field {
                num: 254,
                profile_type: ProfileType::MESSAGE_INDEX,
                value: Value::Uint16(m.message_index.0),
                is_expanded: false,
            };
            len += 1;
        }
        if m.split_type != typedef::SplitType(u8::MAX) {
            arr[len] = Field {
                num: 0,
                profile_type: ProfileType::SPLIT_TYPE,
                value: Value::Uint8(m.split_type.0),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_elapsed_time != u32::MAX {
            arr[len] = Field {
                num: 1,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.total_elapsed_time),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_timer_time != u32::MAX {
            arr[len] = Field {
                num: 2,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.total_timer_time),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_distance != u32::MAX {
            arr[len] = Field {
                num: 3,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.total_distance),
                is_expanded: false,
            };
            len += 1;
        }
        if m.avg_speed != u32::MAX {
            arr[len] = Field {
                num: 4,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.avg_speed),
                is_expanded: false,
            };
            len += 1;
        }
        if m.start_time != typedef::DateTime(u32::MAX) {
            arr[len] = Field {
                num: 9,
                profile_type: ProfileType::DATE_TIME,
                value: Value::Uint32(m.start_time.0),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_ascent != u16::MAX {
            arr[len] = Field {
                num: 13,
                profile_type: ProfileType::UINT16,
                value: Value::Uint16(m.total_ascent),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_descent != u16::MAX {
            arr[len] = Field {
                num: 14,
                profile_type: ProfileType::UINT16,
                value: Value::Uint16(m.total_descent),
                is_expanded: false,
            };
            len += 1;
        }
        if m.start_position_lat != i32::MAX {
            arr[len] = Field {
                num: 21,
                profile_type: ProfileType::SINT32,
                value: Value::Int32(m.start_position_lat),
                is_expanded: false,
            };
            len += 1;
        }
        if m.start_position_long != i32::MAX {
            arr[len] = Field {
                num: 22,
                profile_type: ProfileType::SINT32,
                value: Value::Int32(m.start_position_long),
                is_expanded: false,
            };
            len += 1;
        }
        if m.end_position_lat != i32::MAX {
            arr[len] = Field {
                num: 23,
                profile_type: ProfileType::SINT32,
                value: Value::Int32(m.end_position_lat),
                is_expanded: false,
            };
            len += 1;
        }
        if m.end_position_long != i32::MAX {
            arr[len] = Field {
                num: 24,
                profile_type: ProfileType::SINT32,
                value: Value::Int32(m.end_position_long),
                is_expanded: false,
            };
            len += 1;
        }
        if m.max_speed != u32::MAX {
            arr[len] = Field {
                num: 25,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.max_speed),
                is_expanded: false,
            };
            len += 1;
        }
        if m.avg_vert_speed != i32::MAX {
            arr[len] = Field {
                num: 26,
                profile_type: ProfileType::SINT32,
                value: Value::Int32(m.avg_vert_speed),
                is_expanded: false,
            };
            len += 1;
        }
        if m.end_time != typedef::DateTime(u32::MAX) {
            arr[len] = Field {
                num: 27,
                profile_type: ProfileType::DATE_TIME,
                value: Value::Uint32(m.end_time.0),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_calories != u32::MAX {
            arr[len] = Field {
                num: 28,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.total_calories),
                is_expanded: false,
            };
            len += 1;
        }
        if m.start_elevation != u32::MAX {
            arr[len] = Field {
                num: 74,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.start_elevation),
                is_expanded: false,
            };
            len += 1;
        }
        if m.total_moving_time != u32::MAX {
            arr[len] = Field {
                num: 110,
                profile_type: ProfileType::UINT32,
                value: Value::Uint32(m.total_moving_time),
                is_expanded: false,
            };
            len += 1;
        }

        Message {
            header: 0,
            num: typedef::MesgNum::SPLIT,
            fields: {
                let mut fields: Vec<Field> = Vec::with_capacity(len + m.unknown_fields.len());
                fields.extend_from_slice(&arr[..len]);
                fields.extend_from_slice(&m.unknown_fields);
                fields
            },
            developer_fields: m.developer_fields,
        }
    }
}