Specification: RMF Last edited 1 year ago2023-07-21 07:37:31 UTC

You are viewing an older revision of this wiki page. The current revision may be more detailed and up-to-date. Click here to see the current revision of this page.

RMF Format Specification

An alternative to the MAP format which provides some more features such as saving VisGroups.
All data types uses little endian byte order.

Overall Structure

typedef struct {
    float version;                      // File format version (typically 2.2)
    char[3] magic;                      // File format magic number
    int visgroup_count;                 // Number of VisGroups
    VisGroup[visgroup_count] visgroups; // VisGroups objects
    p_char[] cmapworld;                 // The string "CMapWorld" in ascii
    char[7] unkown1;
    int object_count;                   // Number of objects
    MapObject[object_count] objects;    // Map objects (Brush, Entity, Group)
    p_char[] worldspawn;                // The string "worldspawn" in ascii
    char[4] unknown2;
    int spawnflags;                     // Worldspawn spawnflags (not used)
    int kv_count;                       // Number of worldspawn's key-value pairs
    KeyValue[kv_count] keyvalues;       // Worldspawn's key-value pairs (properties)
    char[12] unknown3;
    int path_count;                     // Number of path objects
    Path[path_count] paths;             // Path objects (created with the Path tool)
    nt_char[8] docinfo;                 // The string "DOCINFO"
    float camera_version;               // Possibly version number of the camera data
    int activate_camera;                // Index of the activate camera
    int camera_count;                   // Number of camera objects
    Camera[camera_count];               // Camera objects
} Rmf;
The magic number is 3 bytes represented by the string RMF in ascii.

Common Structures

Color

typedef struct {
    char[3] rgb;      // One byte each for red, green and blue channel
} Color;
typedef struct {
    char[4] rgba;     // One byte each for red, green, blue and alpha channel
} RgbaColor;

Vector

typedef struct {
    float x;
    float y;
    float z;
} Vector;

KeyValue

typedef struct {
    p_char[] key;       // Key of the property
    p_char[] value;     // Value of the property
} KeyValue;

VisGroup

typedef struct {
    nt_char[128] name;      // VisGroup name
    RgbaColor color;        // Editor color of the VisGroup
    int visgroup_id;        // VisGroup's ID number
    _Bool visible;          // Whether the VisGroup is visible or not
    char[3] unknown;
} VisGroup;

Map Objects

All map objects starts with a length-prefixed string specifying its type.

Brush (CMapSolid)

typedef struct {
    p_char[] object_type;   // "CMapSolid" in the case of a brush object
    int visgroup_id;        // ID of the VisGroup the object belongs to
    Color color;            // Editor color of the object
    char[4] unknown1;
    int face_count;         // Number of faces (polygons) making up the brush
    Face[face_count]        // The brush's faces
} Brush;

Face

typedef struct {
    nt_char[256] texture_name;      // Name of the texture applied to the face
    char[4] unknown1;
    Vector right_axis;              // The texture's projected right axis
    float shift_x;                  // Horizontal shift of the texture
    Vector down_axis;               // The texture's projected down axis
    float shift_y;                  // Vertical shift of the texture
    float angle;                    // The angle of the applied rotation
    float scale_x;                  // Horizontal scale multiplier
    float scale_y;                  // Vertical scale multiplier
    char[16] unknown2;
    int vertex_count;               // Number of vertices in the face
    Vector[vertex_count] vertices;  // The vertices that make up the face
    Vector[3] plane_points;         // A triplet of points that define the face plane
} Face;
The angle value is what has already been applied to the face and is reflected in the right_axis and down_axis. In other words, any texture projected along right_axis and down_axis will already be rotated. You will mostly only use this to undo the rotation done to the texture.

Entity (CMapEntity)

typedef struct {
    p_char[] object_type;           // "CMapEntity" in the case of an entity object
    int visgroup_id;                // ID of the VisGroup the object belongs to
    Color color;                    // Editor color of the object
    int brush_count;                // Number of brushes tied to the entity
    Brush[brush_count] brushes;     // Brushes that are tied to the entity
    p_char[] classname;             // The entity's classname
    char[4] unknown1;
    int flags;
    int kv_count;                   // Number of entity's key-value pairs
    KeyValue[kv_count] keyvalues;   // Entity's key-value pairs (properties)
    char[14] unknown2;
    Vector origin;                  // The origin if it's a point entity
    char[4] unknown3;
} Entity;

Group (CMapGroup)

typedef struct {
    p_char[] object_type;       // "CMapGroup" in the case of a group object
    int visgroup_id;            // ID of the VisGroup the object belongs to
    Color color;                // Editor color of the object
    int object_count;           // Number of objects belonging to the group
    MapObject[object_count]     // The objects that make up the group
} Group;

Path

Paths are placed using the Path tool in Hammer and offer an alternative to placing path_ entities manually.
typedef struct {
    nt_char[128] path_name;     // The base name for this path
    nt_char[128] classname;     // Typically path_corner or path_track
    int path_type;              // The direction of the path
    int node_count;             // Number of nodes in the path
    Node[node_count] nodes;     // The nodes that make up the path
} Path;
The path_name will be used as the base name for the nodes belonging to this path, i.e. for a path named my_path each node will be named my_path01, my_path02, etc.

The path's direction or path_type can have one of three different values:
0: One way (from first to last node and stops there).
1: Circular (from first to last and back to first again, as an endless loop).
2: Ping pong (from first to last and reverse direction back to first, in an endless loop).

Node

typedef struct {
    Vector position;                // The node's position in world coordinates
    int index;                      // The node's index in the path
    nt_char[128] name_override;     // Name to use instead of auto-generated one
    int kv_count;                   // Number of node's key-value pairs
    KeyValue[kv_count] keyvalues;   // Node's key-value pairs (properties)
} Node;

Camera

typedef struct {
    Vector eye_position;        // The position of the camera in world coordinates
    Vector lookat_position;     // The target position in world coordinates the camera will look at
} Camera;

Sources

1 Comment

Commented 10 months ago2024-02-08 15:40:38 UTC Comment #105968
I noticed a few things while looking into the various .rmf file versions:
  • VIS group colors appear to be stored as RGB, not RGBA - the 4th byte is always 0 in my test files.
  • In v1.6 and v1.8 files, colors are stored as BGR, not RGB.

You must log in to post a comment. You can login or register a new account.