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// Example code that deserializes and serializes the model. // extern crate serde; // #[macro_use] // extern crate serde_derive; // extern crate serde_json; // // use generated_module::[object Object]; // // fn main() { // let json = r#"{"answer": 42}"#; // let model: [object Object] = serde_json::from_str(&json).unwrap(); // } use serde::{Serialize, Deserialize}; use std::collections::HashMap; /// This file is a JSON schema of files created by LDtk level editor (https://ldtk.io). /// /// This is the root of any Project JSON file. It contains: - the project settings, - an /// array of levels, - and a definition object (that can probably be safely ignored for most /// users). #[derive(Serialize, Deserialize)] pub struct Coordinate { /// Number of backup files to keep, if the `backupOnSave` is TRUE #[serde(rename = "backupLimit")] pub backup_limit: i64, /// If TRUE, an extra copy of the project will be created in a sub folder, when saving. #[serde(rename = "backupOnSave")] pub backup_on_save: bool, /// Project background color #[serde(rename = "bgColor")] pub bg_color: String, /// Default grid size for new layers #[serde(rename = "defaultGridSize")] pub default_grid_size: i64, /// Default background color of levels #[serde(rename = "defaultLevelBgColor")] pub default_level_bg_color: String, /// Default X pivot (0 to 1) for new entities #[serde(rename = "defaultPivotX")] pub default_pivot_x: f64, /// Default Y pivot (0 to 1) for new entities #[serde(rename = "defaultPivotY")] pub default_pivot_y: f64, /// A structure containing all the definitions of this project pub defs: Option<Definitions>, /// If TRUE, all layers in all levels will also be exported as PNG along with the project /// file (default is FALSE) #[serde(rename = "exportPng")] pub export_png: bool, /// If TRUE, a Tiled compatible file will also be generated along with the LDtk JSON file /// (default is FALSE) #[serde(rename = "exportTiled")] pub export_tiled: bool, /// If TRUE, one file will be saved for the project (incl. all its definitions) and one file /// in a sub-folder for each level. #[serde(rename = "externalLevels")] pub external_levels: bool, /// File format version #[serde(rename = "jsonVersion")] pub json_version: String, /// All levels. The order of this array is only relevant in `LinearHorizontal` and /// `linearVertical` world layouts (see `worldLayout` value). Otherwise, you should refer to /// the `worldX`,`worldY` coordinates of each Level. pub levels: Vec<Level>, /// If TRUE, the Json is partially minified (no indentation, nor line breaks, default is /// FALSE) #[serde(rename = "minifyJson")] pub minify_json: bool, #[serde(rename = "nextUid")] pub next_uid: i64, /// File naming pattern for exported PNGs #[serde(rename = "pngFilePattern")] pub png_file_pattern: Option<String>, /// Height of the world grid in pixels. #[serde(rename = "worldGridHeight")] pub world_grid_height: i64, /// Width of the world grid in pixels. #[serde(rename = "worldGridWidth")] pub world_grid_width: i64, /// An enum that describes how levels are organized in this project (ie. linearly or in a 2D /// space). Possible values: `Free`, `GridVania`, `LinearHorizontal`, `LinearVertical` #[serde(rename = "worldLayout")] pub world_layout: Option<WorldLayout>, } /// A structure containing all the definitions of this project /// /// If you're writing your own LDtk importer, you should probably just ignore *most* stuff in /// the `defs` section, as it contains data that are mostly important to the editor. To keep /// you away from the `defs` section and avoid some unnecessary JSON parsing, important data /// from definitions is often duplicated in fields prefixed with a double underscore (eg. /// `__identifier` or `__type`). The 2 only definition types you might need here are /// **Tilesets** and **Enums**. #[derive(Serialize, Deserialize)] pub struct Definitions { pub entities: Vec<EntityDefinition>, pub enums: Vec<EnumDefinition>, /// Note: external enums are exactly the same as `enums`, except they have a `relPath` to /// point to an external source file. #[serde(rename = "externalEnums")] pub external_enums: Vec<EnumDefinition>, pub layers: Vec<LayerDefinition>, pub tilesets: Vec<TilesetDefinition>, } #[derive(Serialize, Deserialize)] pub struct EntityDefinition { /// Base entity color pub color: String, /// Array of field definitions #[serde(rename = "fieldDefs")] pub field_defs: Vec<FieldDefinition>, /// Pixel height pub height: i64, /// Unique String identifier pub identifier: String, /// Possible values: `DiscardOldOnes`, `PreventAdding`, `MoveLastOne` #[serde(rename = "limitBehavior")] pub limit_behavior: Option<LimitBehavior>, /// Max instances per level #[serde(rename = "maxPerLevel")] pub max_per_level: i64, /// Pivot X coordinate (from 0 to 1.0) #[serde(rename = "pivotX")] pub pivot_x: f64, /// Pivot Y coordinate (from 0 to 1.0) #[serde(rename = "pivotY")] pub pivot_y: f64, /// Possible values: `Rectangle`, `Ellipse`, `Tile`, `Cross` #[serde(rename = "renderMode")] pub render_mode: Option<RenderMode>, /// Display entity name in editor #[serde(rename = "showName")] pub show_name: bool, /// Tile ID used for optional tile display #[serde(rename = "tileId")] pub tile_id: Option<i64>, /// Possible values: `Stretch`, `Crop` #[serde(rename = "tileRenderMode")] pub tile_render_mode: Option<TileRenderMode>, /// Tileset ID used for optional tile display #[serde(rename = "tilesetId")] pub tileset_id: Option<i64>, /// Unique Int identifier pub uid: i64, /// Pixel width pub width: i64, } /// This section is mostly only intended for the LDtk editor app itself. You can safely /// ignore it. #[derive(Serialize, Deserialize)] pub struct FieldDefinition { /// Human readable value type (eg. `Int`, `Float`, `Point`, etc.). If the field is an array, /// this field will look like `Array<...>` (eg. `Array<Int>`, `Array<Point>` etc.) #[serde(rename = "__type")] pub field_definition_type: String, /// Optional list of accepted file extensions for FilePath value type. Includes the dot: /// `.ext` #[serde(rename = "acceptFileTypes")] pub accept_file_types: Option<Vec<String>>, /// Array max length #[serde(rename = "arrayMaxLength")] pub array_max_length: Option<i64>, /// Array min length #[serde(rename = "arrayMinLength")] pub array_min_length: Option<i64>, /// TRUE if the value can be null. For arrays, TRUE means it can contain null values /// (exception: array of Points can't have null values). #[serde(rename = "canBeNull")] pub can_be_null: bool, /// Default value if selected value is null or invalid. #[serde(rename = "defaultOverride")] pub default_override: Option<serde_json::Value>, #[serde(rename = "editorAlwaysShow")] pub editor_always_show: bool, /// Possible values: `Hidden`, `ValueOnly`, `NameAndValue`, `EntityTile`, `PointStar`, /// `PointPath`, `RadiusPx`, `RadiusGrid` #[serde(rename = "editorDisplayMode")] pub editor_display_mode: Option<EditorDisplayMode>, /// Possible values: `Above`, `Center`, `Beneath` #[serde(rename = "editorDisplayPos")] pub editor_display_pos: Option<EditorDisplayPos>, /// Unique String identifier pub identifier: String, /// TRUE if the value is an array of multiple values #[serde(rename = "isArray")] pub is_array: bool, /// Max limit for value, if applicable pub max: Option<f64>, /// Min limit for value, if applicable pub min: Option<f64>, /// Optional regular expression that needs to be matched to accept values. Expected format: /// `/some_reg_ex/g`, with optional "i" flag. pub regex: Option<String>, /// Internal type enum #[serde(rename = "type")] pub purple_type: Option<serde_json::Value>, /// Unique Intidentifier pub uid: i64, } #[derive(Serialize, Deserialize)] pub struct EnumDefinition { #[serde(rename = "externalFileChecksum")] pub external_file_checksum: Option<String>, /// Relative path to the external file providing this Enum #[serde(rename = "externalRelPath")] pub external_rel_path: Option<String>, /// Tileset UID if provided #[serde(rename = "iconTilesetUid")] pub icon_tileset_uid: Option<i64>, /// Unique String identifier pub identifier: String, /// Unique Int identifier pub uid: i64, /// All possible enum values, with their optional Tile infos. pub values: Vec<EnumValueDefinition>, } #[derive(Serialize, Deserialize)] pub struct EnumValueDefinition { /// An array of 4 Int values that refers to the tile in the tileset image: `[ x, y, width, /// height ]` #[serde(rename = "__tileSrcRect")] pub tile_src_rect: Vec<i64>, /// Enum value pub id: String, /// The optional ID of the tile #[serde(rename = "tileId")] pub tile_id: Option<i64>, } #[derive(Serialize, Deserialize)] pub struct LayerDefinition { /// Type of the layer (*IntGrid, Entities, Tiles or AutoLayer*) #[serde(rename = "__type")] pub layer_definition_type: String, /// Contains all the auto-layer rule definitions. #[serde(rename = "autoRuleGroups")] pub auto_rule_groups: Vec<HashMap<String, Option<serde_json::Value>>>, #[serde(rename = "autoSourceLayerDefUid")] pub auto_source_layer_def_uid: Option<i64>, /// Reference to the Tileset UID being used by this auto-layer rules #[serde(rename = "autoTilesetDefUid")] pub auto_tileset_def_uid: Option<i64>, /// Opacity of the layer (0 to 1.0) #[serde(rename = "displayOpacity")] pub display_opacity: f64, /// Width and height of the grid in pixels #[serde(rename = "gridSize")] pub grid_size: i64, /// Unique String identifier pub identifier: String, /// An array (using IntGrid value as array index, starting from 0) that defines extra /// optional info for each IntGrid value. #[serde(rename = "intGridValues")] pub int_grid_values: Vec<IntGridValueDefinition>, /// X offset of the layer, in pixels (IMPORTANT: this should be added to the `LayerInstance` /// optional offset) #[serde(rename = "pxOffsetX")] pub px_offset_x: i64, /// Y offset of the layer, in pixels (IMPORTANT: this should be added to the `LayerInstance` /// optional offset) #[serde(rename = "pxOffsetY")] pub px_offset_y: i64, /// If the tiles are smaller or larger than the layer grid, the pivot value will be used to /// position the tile relatively its grid cell. #[serde(rename = "tilePivotX")] pub tile_pivot_x: f64, /// If the tiles are smaller or larger than the layer grid, the pivot value will be used to /// position the tile relatively its grid cell. #[serde(rename = "tilePivotY")] pub tile_pivot_y: f64, /// Reference to the Tileset UID being used by this Tile layer #[serde(rename = "tilesetDefUid")] pub tileset_def_uid: Option<i64>, /// Type of the layer as Haxe Enum Possible values: `IntGrid`, `Entities`, `Tiles`, /// `AutoLayer` #[serde(rename = "type")] pub purple_type: Option<Type>, /// Unique Int identifier pub uid: i64, } /// IntGrid value definition #[derive(Serialize, Deserialize)] pub struct IntGridValueDefinition { pub color: String, /// Unique String identifier pub identifier: Option<String>, } /// The `Tileset` definition is the most important part among project definitions. It /// contains some extra informations about each integrated tileset. If you only had to parse /// one definition section, that would be the one. #[derive(Serialize, Deserialize)] pub struct TilesetDefinition { /// The following data is used internally for various optimizations. It's always synced with /// source image changes. #[serde(rename = "cachedPixelData")] pub cached_pixel_data: Option<HashMap<String, Option<serde_json::Value>>>, /// Unique String identifier pub identifier: String, /// Distance in pixels from image borders pub padding: i64, /// Image height in pixels #[serde(rename = "pxHei")] pub px_hei: i64, /// Image width in pixels #[serde(rename = "pxWid")] pub px_wid: i64, /// Path to the source file, relative to the current project JSON file #[serde(rename = "relPath")] pub rel_path: String, /// Array of group of tiles selections, only meant to be used in the editor #[serde(rename = "savedSelections")] pub saved_selections: Vec<HashMap<String, Option<serde_json::Value>>>, /// Space in pixels between all tiles pub spacing: i64, #[serde(rename = "tileGridSize")] pub tile_grid_size: i64, /// Unique Intidentifier pub uid: i64, } /// This section contains all the level data. It can be found in 2 distinct forms, depending /// on Project current settings: - If "*Separate level files*" is **disabled** (default): /// full level data is *embedded* inside the main Project JSON file, - If "*Separate level /// files*" is **enabled**: level data is stored in *separate* standalone `.ldtkl` files (one /// per level). In this case, the main Project JSON file will still contain most level data, /// except heavy sections, like the `layerInstances` array (which will be null). The /// `externalRelPath` string points to the `ldtkl` file. A `ldtkl` file is just a JSON file /// containing exactly what is described below. #[derive(Serialize, Deserialize)] pub struct Level { /// Background color of the level (same as `bgColor`, except the default value is /// automatically used here if its value is `null`) #[serde(rename = "__bgColor")] pub bg_color: String, /// Position informations of the background image, if there is one. #[serde(rename = "__bgPos")] pub bg_pos: Option<LevelBackgroundPosition>, /// An array listing all other levels touching this one on the world map. In "linear" world /// layouts, this array is populated with previous/next levels in array, and `dir` depends on /// the linear horizontal/vertical layout. #[serde(rename = "__neighbours")] pub neighbours: Vec<NeighbourLevel>, /// Background color of the level. If `null`, the project `defaultLevelBgColor` should be /// used. #[serde(rename = "bgColor")] pub level_bg_color: Option<String>, /// Background image X pivot (0-1) #[serde(rename = "bgPivotX")] pub bg_pivot_x: f64, /// Background image Y pivot (0-1) #[serde(rename = "bgPivotY")] pub bg_pivot_y: f64, /// An enum defining the way the background image (if any) is positioned on the level. See /// `__bgPos` for resulting position info. Possible values: `Unscaled`, `Contain`, `Cover`, /// `CoverDirty` #[serde(rename = "bgPos")] pub level_bg_pos: Option<BgPos>, /// The *optional* relative path to the level background image. #[serde(rename = "bgRelPath")] pub bg_rel_path: Option<String>, /// This value is not null if the project option "*Save levels separately*" is enabled. In /// this case, this **relative** path points to the level Json file. #[serde(rename = "externalRelPath")] pub external_rel_path: Option<String>, /// Unique String identifier pub identifier: String, /// An array containing all Layer instances. **IMPORTANT**: if the project option "*Save /// levels separately*" is enabled, this field will be `null`.<br/> This array is **sorted /// in display order**: the 1st layer is the top-most and the last is behind. #[serde(rename = "layerInstances")] pub layer_instances: Option<Vec<LayerInstance>>, /// Height of the level in pixels #[serde(rename = "pxHei")] pub px_hei: i64, /// Width of the level in pixels #[serde(rename = "pxWid")] pub px_wid: i64, /// Unique Int identifier pub uid: i64, /// World X coordinate in pixels #[serde(rename = "worldX")] pub world_x: i64, /// World Y coordinate in pixels #[serde(rename = "worldY")] pub world_y: i64, } /// Position informations of the background image, if there is one. /// /// Level background image position info #[derive(Serialize, Deserialize)] pub struct LevelBackgroundPosition { /// An array of 4 float values describing the cropped sub-rectangle of the displayed /// background image. This cropping happens when original is larger than the level bounds. /// Array format: `[ cropX, cropY, cropWidth, cropHeight ]` #[serde(rename = "cropRect")] pub crop_rect: Vec<f64>, /// An array containing the `[scaleX,scaleY]` values of the **cropped** background image, /// depending on `bgPos` option. pub scale: Vec<f64>, /// An array containing the `[x,y]` pixel coordinates of the top-left corner of the /// **cropped** background image, depending on `bgPos` option. #[serde(rename = "topLeftPx")] pub top_left_px: Vec<i64>, } #[derive(Serialize, Deserialize)] pub struct LayerInstance { /// Grid-based height #[serde(rename = "__cHei")] pub c_hei: i64, /// Grid-based width #[serde(rename = "__cWid")] pub c_wid: i64, /// Grid size #[serde(rename = "__gridSize")] pub grid_size: i64, /// Layer definition identifier #[serde(rename = "__identifier")] pub identifier: String, /// Layer opacity as Float [0-1] #[serde(rename = "__opacity")] pub opacity: f64, /// Total layer X pixel offset, including both instance and definition offsets. #[serde(rename = "__pxTotalOffsetX")] pub px_total_offset_x: i64, /// Total layer Y pixel offset, including both instance and definition offsets. #[serde(rename = "__pxTotalOffsetY")] pub px_total_offset_y: i64, /// The definition UID of corresponding Tileset, if any. #[serde(rename = "__tilesetDefUid")] pub tileset_def_uid: Option<i64>, /// The relative path to corresponding Tileset, if any. #[serde(rename = "__tilesetRelPath")] pub tileset_rel_path: Option<String>, /// Layer type (possible values: IntGrid, Entities, Tiles or AutoLayer) #[serde(rename = "__type")] pub layer_instance_type: String, /// An array containing all tiles generated by Auto-layer rules. The array is already sorted /// in display order (ie. 1st tile is beneath 2nd, which is beneath 3rd etc.).<br/><br/> /// Note: if multiple tiles are stacked in the same cell as the result of different rules, /// all tiles behind opaque ones will be discarded. #[serde(rename = "autoLayerTiles")] pub auto_layer_tiles: Vec<TileInstance>, #[serde(rename = "entityInstances")] pub entity_instances: Vec<EntityInstance>, #[serde(rename = "gridTiles")] pub grid_tiles: Vec<TileInstance>, #[serde(rename = "intGrid")] pub int_grid: Vec<IntGridValueInstance>, /// Reference the Layer definition UID #[serde(rename = "layerDefUid")] pub layer_def_uid: i64, /// Reference to the UID of the level containing this layer instance #[serde(rename = "levelId")] pub level_id: i64, /// X offset in pixels to render this layer, usually 0 (IMPORTANT: this should be added to /// the `LayerDef` optional offset, see `__pxTotalOffsetX`) #[serde(rename = "pxOffsetX")] pub px_offset_x: i64, /// Y offset in pixels to render this layer, usually 0 (IMPORTANT: this should be added to /// the `LayerDef` optional offset, see `__pxTotalOffsetY`) #[serde(rename = "pxOffsetY")] pub px_offset_y: i64, /// Random seed used for Auto-Layers rendering pub seed: i64, } /// This structure represents a single tile from a given Tileset. #[derive(Serialize, Deserialize)] pub struct TileInstance { /// Internal data used by the editor.<br/> For auto-layer tiles: `[ruleId, coordId]`.<br/> /// For tile-layer tiles: `[coordId]`. pub d: Vec<i64>, /// "Flip bits", a 2-bits integer to represent the mirror transformations of the tile.<br/> /// - Bit 0 = X flip<br/> - Bit 1 = Y flip<br/> Examples: f=0 (no flip), f=1 (X flip /// only), f=2 (Y flip only), f=3 (both flips) pub f: i64, /// Pixel coordinates of the tile in the **layer** (`[x,y]` format). Don't forget optional /// layer offsets, if they exist! pub px: Vec<i64>, /// Pixel coordinates of the tile in the **tileset** (`[x,y]` format) pub src: Vec<i64>, /// The *Tile ID* in the corresponding tileset. pub t: i64, } #[derive(Serialize, Deserialize)] pub struct EntityInstance { /// Grid-based coordinates (`[x,y]` format) #[serde(rename = "__grid")] pub grid: Vec<i64>, /// Entity definition identifier #[serde(rename = "__identifier")] pub identifier: String, /// Pivot coordinates (`[x,y]` format, values are from 0 to 1) of the Entity #[serde(rename = "__pivot")] pub pivot: Vec<f64>, /// Optional Tile used to display this entity (it could either be the default Entity tile, or /// some tile provided by a field value, like an Enum). #[serde(rename = "__tile")] pub tile: Option<EntityInstanceTile>, /// Reference of the **Entity definition** UID #[serde(rename = "defUid")] pub def_uid: i64, #[serde(rename = "fieldInstances")] pub field_instances: Vec<FieldInstance>, /// Pixel coordinates (`[x,y]` format) in current level coordinate space. Don't forget /// optional layer offsets, if they exist! pub px: Vec<i64>, } #[derive(Serialize, Deserialize)] pub struct FieldInstance { /// Field definition identifier #[serde(rename = "__identifier")] pub identifier: String, /// Type of the field, such as `Int`, `Float`, `Enum(my_enum_name)`, `Bool`, etc. #[serde(rename = "__type")] pub field_instance_type: String, /// Actual value of the field instance. The value type may vary, depending on `__type` /// (Integer, Boolean, String etc.)<br/> It can also be an `Array` of those same types. #[serde(rename = "__value")] pub value: Option<serde_json::Value>, /// Reference of the **Field definition** UID #[serde(rename = "defUid")] pub def_uid: i64, /// Editor internal raw values #[serde(rename = "realEditorValues")] pub real_editor_values: Vec<Option<serde_json::Value>>, } /// Optional Tile used to display this entity (it could either be the default Entity tile, or /// some tile provided by a field value, like an Enum). /// /// Tile data in an Entity instance #[derive(Serialize, Deserialize)] pub struct EntityInstanceTile { /// An array of 4 Int values that refers to the tile in the tileset image: `[ x, y, width, /// height ]` #[serde(rename = "srcRect")] pub src_rect: Vec<i64>, /// Tileset ID #[serde(rename = "tilesetUid")] pub tileset_uid: i64, } /// IntGrid value instance #[derive(Serialize, Deserialize)] pub struct IntGridValueInstance { /// Coordinate ID in the layer grid #[serde(rename = "coordId")] pub coord_id: i64, /// IntGrid value pub v: i64, } /// Nearby level info #[derive(Serialize, Deserialize)] pub struct NeighbourLevel { /// A single lowercase character tipping on the level location (`n`orth, `s`outh, `w`est, /// `e`ast). pub dir: String, #[serde(rename = "levelUid")] pub level_uid: i64, } /// Possible values: `Hidden`, `ValueOnly`, `NameAndValue`, `EntityTile`, `PointStar`, /// `PointPath`, `RadiusPx`, `RadiusGrid` #[derive(Serialize, Deserialize)] pub enum EditorDisplayMode { EntityTile, Hidden, NameAndValue, PointPath, PointStar, RadiusGrid, RadiusPx, ValueOnly, } /// Possible values: `Above`, `Center`, `Beneath` #[derive(Serialize, Deserialize)] pub enum EditorDisplayPos { Above, Beneath, Center, } /// Possible values: `DiscardOldOnes`, `PreventAdding`, `MoveLastOne` #[derive(Serialize, Deserialize)] pub enum LimitBehavior { DiscardOldOnes, MoveLastOne, PreventAdding, } /// Possible values: `Rectangle`, `Ellipse`, `Tile`, `Cross` #[derive(Serialize, Deserialize)] pub enum RenderMode { Cross, Ellipse, Rectangle, Tile, } /// Possible values: `Stretch`, `Crop` #[derive(Serialize, Deserialize)] pub enum TileRenderMode { Crop, Stretch, } /// Type of the layer as Haxe Enum Possible values: `IntGrid`, `Entities`, `Tiles`, /// `AutoLayer` #[derive(Serialize, Deserialize)] pub enum Type { AutoLayer, Entities, IntGrid, Tiles, } /// An enum defining the way the background image (if any) is positioned on the level. See /// `__bgPos` for resulting position info. Possible values: `Unscaled`, `Contain`, `Cover`, /// `CoverDirty` #[derive(Serialize, Deserialize)] pub enum BgPos { Contain, Cover, CoverDirty, Unscaled, } /// An enum that describes how levels are organized in this project (ie. linearly or in a 2D /// space). Possible values: `Free`, `GridVania`, `LinearHorizontal`, `LinearVertical` #[derive(Serialize, Deserialize)] pub enum WorldLayout { Free, GridVania, LinearHorizontal, LinearVertical, }