llama_cpp_4/mtmd.rs
1//! Safe wrappers for the `libmtmd` multimodal support library.
2//!
3//! `libmtmd` extends llama.cpp with the ability to encode image and audio
4//! inputs (bitmaps) into token embeddings that can then be fed into a
5//! standard [`crate::context::LlamaContext::decode`] call alongside normal text tokens.
6//!
7//! # Quick-start
8//!
9//! ```no_run
10//! # #[cfg(feature = "mtmd")]
11//! # {
12//! use std::path::Path;
13//! use llama_cpp_4::{
14//! llama_backend::LlamaBackend,
15//! model::{LlamaModel, params::LlamaModelParams, AddBos},
16//! context::params::LlamaContextParams,
17//! mtmd::{MtmdContext, MtmdContextParams, MtmdBitmap, MtmdInputChunks, MtmdInputText},
18//! };
19//!
20//! let backend = LlamaBackend::init().unwrap();
21//! let model = LlamaModel::load_from_file(&backend, Path::new("model.gguf"),
22//! &LlamaModelParams::default()).unwrap();
23//! let mut lctx = model.new_context(&backend, LlamaContextParams::default()).unwrap();
24//!
25//! // Load the multimodal projector (mmproj) model.
26//! let ctx_params = MtmdContextParams::default();
27//! let mtmd_ctx = MtmdContext::init_from_file(Path::new("mmproj.gguf"), &model, ctx_params)
28//! .unwrap();
29//!
30//! // Load an image from a file.
31//! let bitmap = MtmdBitmap::from_file(&mtmd_ctx, Path::new("image.jpg")).unwrap();
32//!
33//! // Tokenize a prompt that contains the media marker.
34//! let marker = MtmdContext::default_marker();
35//! let prompt = format!("Describe this image: {marker}");
36//! let text = MtmdInputText::new(&prompt, true, true);
37//! let bitmaps = [&bitmap];
38//!
39//! let mut chunks = MtmdInputChunks::new();
40//! mtmd_ctx.tokenize(&text, &bitmaps, &mut chunks).unwrap();
41//!
42//! // Evaluate / decode all chunks.
43//! let n_batch = lctx.n_batch() as i32;
44//! let mut n_past = 0i32;
45//! mtmd_ctx.eval_chunks(lctx.as_ptr(), &chunks, 0, 0, n_batch, true, &mut n_past).unwrap();
46//! # }
47//! ```
48//!
49//! # Feature flag
50//!
51//! This module is only compiled when the `mtmd` Cargo feature is enabled.
52
53use std::ffi::{CStr, CString};
54use std::os::raw::c_void;
55use std::path::Path;
56use std::ptr::NonNull;
57use std::slice;
58
59use llama_cpp_sys_4 as sys;
60
61use crate::model::LlamaModel;
62
63// ─────────────────────────────────────────────────────────────────────────────
64// Error types
65// ─────────────────────────────────────────────────────────────────────────────
66
67/// All errors that can be returned by the mtmd module.
68#[derive(Debug, thiserror::Error)]
69pub enum MtmdError {
70 /// The context could not be created (e.g. bad mmproj file).
71 #[error("failed to create mtmd context (null return from mtmd_init_from_file)")]
72 ContextCreateFailed,
73
74 /// The bitmap could not be created.
75 #[error("failed to create mtmd bitmap")]
76 BitmapCreateFailed,
77
78 /// A path could not be converted to a valid C string (embedded NUL byte or non-UTF-8).
79 #[error("invalid path: {0}")]
80 InvalidPath(#[from] std::ffi::NulError),
81
82 /// A path was not representable as UTF-8.
83 #[error("path is not valid UTF-8")]
84 PathNotUtf8,
85
86 /// `mtmd_tokenize` returned an error code.
87 #[error("tokenize error: code {0} (1 = bitmap count mismatch, 2 = preprocessing error)")]
88 TokenizeError(i32),
89
90 /// `mtmd_encode_chunk` returned a non-zero code.
91 #[error("encode error: code {0}")]
92 EncodeError(i32),
93
94 /// `mtmd_helper_eval_chunks` (or single-chunk variant) returned a non-zero code.
95 #[error("eval error: code {0}")]
96 EvalError(i32),
97
98 /// A video stream could not be opened. Common causes: the build lacks
99 /// video support (`MTMD_VIDEO` was OFF), `ffmpeg`/`ffprobe` is not on
100 /// `PATH`, or the file is unreadable.
101 #[error("failed to open video stream (null return from mtmd_helper_video_init)")]
102 VideoInitFailed,
103
104 /// `mtmd_helper_video_read_next` returned an error code (`-2`).
105 #[error("video read error: code {0}")]
106 VideoReadError(i32),
107}
108
109/// A convenience `Result` alias for this module.
110pub type Result<T> = std::result::Result<T, MtmdError>;
111
112/// Progress callback invoked while the CLIP/mmproj weights are loading.
113///
114/// Receives a value in `[0.0, 1.0]`. Return `true` to continue loading or
115/// `false` to abort immediately.
116pub type MtmdProgressCallback = unsafe extern "C" fn(progress: f32, user_data: *mut c_void) -> bool;
117
118// ─────────────────────────────────────────────────────────────────────────────
119// MtmdContextParams
120// ─────────────────────────────────────────────────────────────────────────────
121
122/// Parameters used when creating an [`MtmdContext`].
123///
124/// Obtain a default-initialised instance via [`MtmdContextParams::default()`].
125pub struct MtmdContextParams {
126 pub(crate) params: sys::mtmd_context_params,
127}
128
129impl std::fmt::Debug for MtmdContextParams {
130 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
131 f.debug_struct("MtmdContextParams")
132 .field("use_gpu", &self.params.use_gpu)
133 .field("print_timings", &self.params.print_timings)
134 .field("n_threads", &self.params.n_threads)
135 .field("warmup", &self.params.warmup)
136 .field("image_min_tokens", &self.params.image_min_tokens)
137 .field("image_max_tokens", &self.params.image_max_tokens)
138 .finish()
139 }
140}
141
142impl Default for MtmdContextParams {
143 fn default() -> Self {
144 let params = unsafe { sys::mtmd_context_params_default() };
145 Self { params }
146 }
147}
148
149impl MtmdContextParams {
150 /// Whether to run the vision/audio encoder on the GPU (default: `true`).
151 #[must_use]
152 pub fn use_gpu(mut self, v: bool) -> Self {
153 self.params.use_gpu = v;
154 self
155 }
156
157 /// Whether to print timing info after each encode (default: `false`).
158 #[must_use]
159 pub fn print_timings(mut self, v: bool) -> Self {
160 self.params.print_timings = v;
161 self
162 }
163
164 /// Number of threads used for the vision encoder (default taken from
165 /// `mtmd_context_params_default`).
166 #[must_use]
167 pub fn n_threads(mut self, n: i32) -> Self {
168 self.params.n_threads = n;
169 self
170 }
171
172 /// Whether to run a warm-up encode pass after initialisation.
173 #[must_use]
174 pub fn warmup(mut self, v: bool) -> Self {
175 self.params.warmup = v;
176 self
177 }
178
179 /// Minimum number of image tokens (0 = use model default).
180 #[must_use]
181 pub fn image_min_tokens(mut self, n: i32) -> Self {
182 self.params.image_min_tokens = n;
183 self
184 }
185
186 /// Maximum number of image tokens (0 = use model default).
187 #[must_use]
188 pub fn image_max_tokens(mut self, n: i32) -> Self {
189 self.params.image_max_tokens = n;
190 self
191 }
192
193 /// Maximum number of multimodal output tokens per batch.
194 ///
195 /// Maps to `mtmd_context_params.batch_max_tokens`. The upstream default
196 /// is `1024`. Increase for large images or long audio segments.
197 ///
198 /// # Examples
199 ///
200 /// ```rust
201 /// # #[cfg(feature = "mtmd")]
202 /// # {
203 /// use llama_cpp_4::mtmd::MtmdContextParams;
204 /// let params = MtmdContextParams::default().with_batch_max_tokens(2048);
205 /// assert_eq!(params.batch_max_tokens(), 2048);
206 /// # }
207 /// ```
208 #[must_use]
209 pub fn with_batch_max_tokens(mut self, n: i32) -> Self {
210 self.params.batch_max_tokens = n;
211 self
212 }
213
214 /// Get the configured batch token cap (`batch_max_tokens`).
215 #[must_use]
216 pub fn batch_max_tokens(&self) -> i32 {
217 self.params.batch_max_tokens
218 }
219
220 /// Set flash-attention mode for the vision encoder.
221 ///
222 /// Maps to `mtmd_context_params.flash_attn_type`. Uses the same
223 /// [`crate::context::params::LlamaFlashAttnType`] enum as text contexts.
224 ///
225 /// # Examples
226 ///
227 /// ```rust
228 /// # #[cfg(feature = "mtmd")]
229 /// # {
230 /// use llama_cpp_4::context::params::LlamaFlashAttnType;
231 /// use llama_cpp_4::mtmd::MtmdContextParams;
232 /// let params = MtmdContextParams::default()
233 /// .with_flash_attn_type(LlamaFlashAttnType::Auto);
234 /// assert_eq!(params.flash_attn_type(), LlamaFlashAttnType::Auto);
235 /// # }
236 /// ```
237 #[must_use]
238 pub fn with_flash_attn_type(
239 mut self,
240 flash_attn_type: crate::context::params::LlamaFlashAttnType,
241 ) -> Self {
242 self.params.flash_attn_type = flash_attn_type.into();
243 self
244 }
245
246 /// Get flash-attention mode for the vision encoder.
247 #[must_use]
248 pub fn flash_attn_type(&self) -> crate::context::params::LlamaFlashAttnType {
249 crate::context::params::LlamaFlashAttnType::from(self.params.flash_attn_type)
250 }
251
252 /// Register a callback invoked while mmproj weights load.
253 ///
254 /// Maps to `mtmd_context_params.progress_callback`. Pass `None` to disable
255 /// progress reporting. The callback may return `false` to abort loading
256 /// early; see [`MtmdProgressCallback`].
257 ///
258 /// `user_data` is forwarded to each invocation and must remain valid until
259 /// [`MtmdContext::init_from_file`] returns.
260 #[must_use]
261 pub fn with_progress_callback(
262 mut self,
263 callback: Option<MtmdProgressCallback>,
264 user_data: *mut c_void,
265 ) -> Self {
266 self.params.progress_callback = callback;
267 self.params.progress_callback_user_data = user_data;
268 self
269 }
270
271 /// Override the media marker string (e.g. `"<image>"`).
272 ///
273 /// The provided string must not contain interior NUL bytes. Pass `None`
274 /// to use the library default (`mtmd_default_marker()`).
275 ///
276 /// **Note:** the `CString` is stored inside the params so the pointer
277 /// remains valid as long as this `MtmdContextParams` lives.
278 /// # Errors
279 ///
280 /// Returns [`MtmdError`] if the marker string contains a NUL byte.
281 pub fn media_marker(mut self, marker: Option<&str>) -> std::result::Result<Self, MtmdError> {
282 match marker {
283 None => {
284 self.params.media_marker = std::ptr::null();
285 Ok(self)
286 }
287 Some(s) => {
288 let cs = CString::new(s)?;
289 self.params.media_marker = cs.as_ptr();
290 // Leak the CString so the raw pointer stays valid; the caller
291 // must ensure the params don't outlive the string. Since
292 // MtmdContextParams is consumed by MtmdContext::init_from_file,
293 // this is safe.
294 std::mem::forget(cs);
295 Ok(self)
296 }
297 }
298 }
299}
300
301// ─────────────────────────────────────────────────────────────────────────────
302// MtmdContext
303// ─────────────────────────────────────────────────────────────────────────────
304
305/// The main multimodal context.
306///
307/// Wraps a `mtmd_context *`. This context is tied to a specific mmproj model
308/// file and a loaded [`LlamaModel`]. It is safe to share across threads for
309/// `tokenize` calls (read-only), but `encode_chunk` / eval helpers mutate
310/// internal state and must not be called concurrently.
311pub struct MtmdContext {
312 ptr: NonNull<sys::mtmd_context>,
313}
314
315// The underlying mtmd_context is internally synchronised for tokenize().
316// encode / decode must be called from a single thread at a time (caller's
317// responsibility, enforced by the inference semaphore in the server).
318unsafe impl Send for MtmdContext {}
319unsafe impl Sync for MtmdContext {}
320
321impl std::fmt::Debug for MtmdContext {
322 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
323 f.debug_struct("MtmdContext")
324 .field("ptr", &self.ptr)
325 .finish()
326 }
327}
328
329impl Drop for MtmdContext {
330 fn drop(&mut self) {
331 unsafe { sys::mtmd_free(self.ptr.as_ptr()) }
332 }
333}
334
335impl MtmdContext {
336 /// Returns the default media marker string used in prompts
337 /// (currently `"<__media__>"`).
338 #[must_use]
339 pub fn default_marker() -> &'static str {
340 let ptr = unsafe { sys::mtmd_default_marker() };
341 unsafe { CStr::from_ptr(ptr) }
342 .to_str()
343 .unwrap_or("<__media__>")
344 }
345
346 /// Initialise a multimodal context from an mmproj GGUF file.
347 ///
348 /// # Parameters
349 ///
350 /// * `mmproj_path` – path to the mmproj `.gguf` file
351 /// * `text_model` – the already-loaded text model
352 /// * `params` – context parameters (use [`MtmdContextParams::default()`])
353 ///
354 /// # Errors
355 ///
356 /// Returns [`MtmdError::ContextCreateFailed`] if the underlying C call
357 /// returns a null pointer.
358 #[allow(clippy::needless_pass_by_value)]
359 pub fn init_from_file(
360 mmproj_path: impl AsRef<Path>,
361 text_model: &LlamaModel,
362 params: MtmdContextParams,
363 ) -> Result<Self> {
364 let path = mmproj_path
365 .as_ref()
366 .to_str()
367 .ok_or(MtmdError::PathNotUtf8)?;
368 let c_path = CString::new(path)?;
369
370 let ptr = unsafe {
371 sys::mtmd_init_from_file(c_path.as_ptr(), text_model.model.as_ptr(), params.params)
372 };
373
374 let ptr = NonNull::new(ptr).ok_or(MtmdError::ContextCreateFailed)?;
375 Ok(Self { ptr })
376 }
377
378 // ── Logging ──────────────────────────────────────────────────────────
379
380 /// Silence all clip/mtmd log output by installing a no-op callback.
381 ///
382 /// Call this right after [`init_from_file`](Self::init_from_file) to
383 /// suppress the verbose `clip_model_loader: tensor[N]…` lines that
384 /// clip.cpp emits to its own private logger (separate from `llama_log_set`).
385 pub fn void_logs() {
386 unsafe extern "C" fn noop(
387 _level: sys::ggml_log_level,
388 _text: *const ::std::os::raw::c_char,
389 _ud: *mut ::std::os::raw::c_void,
390 ) {
391 }
392 unsafe { sys::mtmd_log_set(Some(noop), std::ptr::null_mut()) };
393 }
394
395 /// Like [`void_logs`](Self::void_logs), but additionally silences logs
396 /// emitted by the `mtmd_helper_*` layer (e.g. eval/decode helpers).
397 ///
398 /// Internally calls `mtmd_helper_log_set` which also routes through
399 /// `mtmd_log_set`, so this is a strict superset of `void_logs`.
400 pub fn void_helper_logs() {
401 unsafe extern "C" fn noop(
402 _level: sys::ggml_log_level,
403 _text: *const ::std::os::raw::c_char,
404 _ud: *mut ::std::os::raw::c_void,
405 ) {
406 }
407 unsafe { sys::mtmd_helper_log_set(Some(noop), std::ptr::null_mut()) };
408 }
409
410 // ── Capability queries ────────────────────────────────────────────────
411
412 /// Returns `true` if the model supports vision (image) input.
413 #[must_use]
414 pub fn supports_vision(&self) -> bool {
415 unsafe { sys::mtmd_support_vision(self.ptr.as_ptr()) }
416 }
417
418 /// Returns `true` if the model supports audio input.
419 #[must_use]
420 pub fn supports_audio(&self) -> bool {
421 unsafe { sys::mtmd_support_audio(self.ptr.as_ptr()) }
422 }
423
424 /// Returns `true` if this build and model support video input.
425 ///
426 /// Video support additionally requires `ffmpeg`/`ffprobe` to be available
427 /// at runtime (see [`MtmdVideo`]). Wraps `mtmd_helper_support_video`.
428 #[must_use]
429 pub fn supports_video(&self) -> bool {
430 unsafe { sys::mtmd_helper_support_video(self.ptr.as_ptr()) }
431 }
432
433 /// Returns the media marker string configured for *this* context.
434 ///
435 /// Unlike [`default_marker`](Self::default_marker) (the library-wide
436 /// default), this reflects any override passed via
437 /// [`MtmdContextParams::media_marker`]. Wraps `mtmd_get_marker`.
438 #[must_use]
439 pub fn marker(&self) -> &str {
440 let ptr = unsafe { sys::mtmd_get_marker(self.ptr.as_ptr()) };
441 if ptr.is_null() {
442 return Self::default_marker();
443 }
444 unsafe { CStr::from_ptr(ptr) }
445 .to_str()
446 .unwrap_or_else(|_| Self::default_marker())
447 }
448
449 /// Returns the audio sample rate in Hz (e.g. `16_000` for Whisper), or `-1` if
450 /// audio is not supported.
451 #[must_use]
452 pub fn audio_sample_rate(&self) -> i32 {
453 unsafe { sys::mtmd_get_audio_sample_rate(self.ptr.as_ptr()) }
454 }
455
456 /// Whether `llama_decode` must use a non-causal attention mask when
457 /// decoding image embeddings for this model.
458 #[must_use]
459 pub fn decode_use_non_causal(&self, chunk: &MtmdInputChunk<'_>) -> bool {
460 unsafe { sys::mtmd_decode_use_non_causal(self.ptr.as_ptr(), chunk.as_ptr()) }
461 }
462
463 /// Whether the model uses M-RoPE for `llama_decode`.
464 #[must_use]
465 pub fn decode_use_mrope(&self) -> bool {
466 unsafe { sys::mtmd_decode_use_mrope(self.ptr.as_ptr()) }
467 }
468
469 // ── Core API ──────────────────────────────────────────────────────────
470
471 /// Tokenize a text prompt that contains one or more media markers.
472 ///
473 /// The number of `bitmaps` must equal the number of media markers in the
474 /// prompt text, otherwise [`MtmdError::TokenizeError`] with code `1` is returned.
475 ///
476 /// This call is **thread-safe** (shared `&self`).
477 ///
478 /// # Parameters
479 ///
480 /// * `text` – text + tokenisation options
481 /// * `bitmaps` – slice of [`MtmdBitmap`] references, one per media marker
482 /// * `output` – an [`MtmdInputChunks`] that will be populated with the result
483 ///
484 /// # Errors
485 ///
486 /// Returns [`MtmdError::TokenizeError`] if tokenization fails.
487 pub fn tokenize(
488 &self,
489 text: &MtmdInputText<'_>,
490 bitmaps: &[&MtmdBitmap],
491 output: &mut MtmdInputChunks,
492 ) -> Result<()> {
493 // The C signature is: mtmd_tokenize(..., mtmd_bitmap ** bitmaps, ...)
494 // where each element is a `const mtmd_bitmap *`. We build a Vec of
495 // `*const mtmd_bitmap` and pass a mutable pointer to its first element
496 // (i.e. `*mut *const mtmd_bitmap`) to satisfy the C API.
497 let mut bitmap_ptrs: Vec<*const sys::mtmd_bitmap> = bitmaps
498 .iter()
499 .map(|b| b.ptr.as_ptr().cast_const())
500 .collect();
501
502 let c_text = sys::mtmd_input_text {
503 // Upstream reads exactly `text_len` bytes from `text`
504 // (llama.cpp #25548), so the prompt is length-delimited and interior
505 // NUL bytes are preserved instead of truncating it.
506 text: text.text.as_ptr().cast(),
507 text_len: text.text_len,
508 add_special: text.add_special,
509 parse_special: text.parse_special,
510 };
511
512 let ret = unsafe {
513 sys::mtmd_tokenize(
514 self.ptr.as_ptr(),
515 output.ptr.as_ptr(),
516 &raw const c_text,
517 bitmap_ptrs.as_mut_ptr(),
518 bitmap_ptrs.len(),
519 )
520 };
521
522 if ret != 0 {
523 return Err(MtmdError::TokenizeError(ret));
524 }
525 Ok(())
526 }
527
528 /// Encode a single input chunk (image or audio) and store the resulting
529 /// embeddings inside the context.
530 ///
531 /// After a successful call, the embeddings can be retrieved with
532 /// [`MtmdContext::output_embd`].
533 ///
534 /// This call is **NOT thread-safe**.
535 ///
536 /// # Errors
537 ///
538 /// Returns [`MtmdError::EncodeError`] if encoding fails.
539 pub fn encode_chunk(&self, chunk: &MtmdInputChunk<'_>) -> Result<()> {
540 let ret = unsafe { sys::mtmd_encode_chunk(self.ptr.as_ptr(), chunk.ptr) };
541 if ret != 0 {
542 return Err(MtmdError::EncodeError(ret));
543 }
544 Ok(())
545 }
546
547 /// Return a slice over the embeddings produced by the last
548 /// [`encode_chunk`](Self::encode_chunk) call.
549 ///
550 /// The length (in `f32` elements) is:
551 /// ```text
552 /// n_embd_inp(model) * chunk.n_tokens()
553 /// ```
554 ///
555 /// # Safety
556 ///
557 /// The returned slice is valid until the next call that mutates the
558 /// context (e.g. another `encode_chunk`).
559 #[must_use]
560 pub fn output_embd(&self, n_elements: usize) -> &[f32] {
561 let ptr = unsafe { sys::mtmd_get_output_embd(self.ptr.as_ptr()) };
562 if ptr.is_null() || n_elements == 0 {
563 return &[];
564 }
565 unsafe { slice::from_raw_parts(ptr, n_elements) }
566 }
567
568 // ── Helper API ────────────────────────────────────────────────────────
569
570 /// High-level helper: evaluate (decode) all chunks in sequence.
571 ///
572 /// * Text chunks are decoded via `llama_decode`.
573 /// * Image/audio chunks are first encoded with `mtmd_encode_chunk` and
574 /// then decoded via `llama_decode`.
575 ///
576 /// On success `new_n_past` is updated with the new past position.
577 ///
578 /// This call is **NOT thread-safe**.
579 ///
580 /// # Parameters
581 ///
582 /// * `lctx` – raw pointer to the llama context (from [`LlamaContext::as_ptr`])
583 /// * `chunks` – the tokenized chunks to evaluate
584 /// * `n_past` – current KV-cache position
585 /// * `seq_id` – sequence ID
586 /// * `n_batch` – maximum batch size (must be ≥ 1)
587 /// * `logits_last` – if `true`, compute logits only for the final token
588 /// * `new_n_past` – updated KV-cache position after the call
589 ///
590 /// # Errors
591 ///
592 /// Returns [`MtmdError::EvalError`] if evaluation fails.
593 #[allow(clippy::too_many_arguments, clippy::not_unsafe_ptr_arg_deref)]
594 pub fn eval_chunks(
595 &self,
596 lctx: *mut sys::llama_context,
597 chunks: &MtmdInputChunks,
598 n_past: i32,
599 seq_id: i32,
600 n_batch: i32,
601 logits_last: bool,
602 new_n_past: &mut i32,
603 ) -> Result<()> {
604 let ret = unsafe {
605 sys::mtmd_helper_eval_chunks(
606 self.ptr.as_ptr(),
607 lctx,
608 chunks.ptr.as_ptr(),
609 n_past,
610 seq_id,
611 n_batch,
612 logits_last,
613 new_n_past,
614 )
615 };
616 if ret != 0 {
617 return Err(MtmdError::EvalError(ret));
618 }
619 Ok(())
620 }
621
622 /// High-level helper: evaluate a single chunk.
623 ///
624 /// Works identically to [`eval_chunks`](Self::eval_chunks) but operates on
625 /// one chunk at a time.
626 ///
627 /// # Errors
628 ///
629 /// Returns [`MtmdError::EvalError`] if evaluation fails.
630 #[allow(clippy::too_many_arguments, clippy::not_unsafe_ptr_arg_deref)]
631 pub fn eval_chunk_single(
632 &self,
633 lctx: *mut sys::llama_context,
634 chunk: &MtmdInputChunk<'_>,
635 n_past: i32,
636 seq_id: i32,
637 n_batch: i32,
638 logits_last: bool,
639 new_n_past: &mut i32,
640 ) -> Result<()> {
641 let ret = unsafe {
642 sys::mtmd_helper_eval_chunk_single(
643 self.ptr.as_ptr(),
644 lctx,
645 chunk.ptr,
646 n_past,
647 seq_id,
648 n_batch,
649 logits_last,
650 new_n_past,
651 )
652 };
653 if ret != 0 {
654 return Err(MtmdError::EvalError(ret));
655 }
656 Ok(())
657 }
658
659 /// Decode an image/audio chunk whose embeddings have already been
660 /// computed (e.g. via [`encode_chunk`](Self::encode_chunk) followed by
661 /// [`output_embd`](Self::output_embd)).
662 ///
663 /// Unlike [`eval_chunk_single`](Self::eval_chunk_single), this helper
664 /// handles batching plus the non-causal-attention setup required by
665 /// some models (e.g. Gemma 3, Gemma 4 audio) and the M-RoPE position
666 /// layout. Use it when the embeddings are already in hand and you want
667 /// the helper to take care of `llama_decode` plumbing.
668 ///
669 /// `encoded_embd` must contain `mtmd_image_tokens_get_n_tokens(chunk) *
670 /// llama_model_n_embd_inp(model)` `f32` elements. This call is **NOT
671 /// thread-safe**.
672 ///
673 /// # Errors
674 ///
675 /// Returns [`MtmdError::EvalError`] with code `-1` if `chunk` is not an
676 /// image/audio chunk, or `1` if `llama_decode` fails.
677 #[allow(clippy::too_many_arguments, clippy::not_unsafe_ptr_arg_deref)]
678 pub fn decode_image_chunk(
679 &self,
680 lctx: *mut sys::llama_context,
681 chunk: &MtmdInputChunk<'_>,
682 encoded_embd: &[f32],
683 n_past: i32,
684 seq_id: i32,
685 n_batch: i32,
686 new_n_past: &mut i32,
687 ) -> Result<()> {
688 let ret = unsafe {
689 sys::mtmd_helper_decode_image_chunk(
690 self.ptr.as_ptr(),
691 lctx,
692 chunk.ptr,
693 encoded_embd.as_ptr().cast_mut(),
694 n_past,
695 seq_id,
696 n_batch,
697 new_n_past,
698 // No post-decode callback; preserves prior single-shot behavior.
699 None,
700 std::ptr::null_mut(),
701 )
702 };
703 if ret != 0 {
704 return Err(MtmdError::EvalError(ret));
705 }
706 Ok(())
707 }
708
709 /// Returns a raw pointer to the underlying `mtmd_context`.
710 ///
711 /// # Safety
712 ///
713 /// The returned pointer is valid for the lifetime of this `MtmdContext`.
714 /// The caller must not free it.
715 #[must_use]
716 pub fn as_ptr(&self) -> *mut sys::mtmd_context {
717 self.ptr.as_ptr()
718 }
719}
720
721// ─────────────────────────────────────────────────────────────────────────────
722// MtmdInputText
723// ─────────────────────────────────────────────────────────────────────────────
724
725/// Text input for [`MtmdContext::tokenize`].
726///
727/// The prompt string must contain the media marker (see
728/// [`MtmdContext::default_marker`]) once for every bitmap to be embedded.
729///
730/// The prompt is passed to llama.cpp as an explicit pointer + length
731/// (`mtmd_input_text::text_len`), so interior NUL bytes are preserved rather
732/// than truncating the prompt — use [`MtmdInputText::from_bytes`] when the
733/// prompt is not guaranteed NUL-free.
734#[derive(Debug)]
735pub struct MtmdInputText<'a> {
736 /// Prompt bytes followed by a trailing NUL sentinel. The sentinel keeps the
737 /// buffer usable by any C code that still treats `text` as a C string; it is
738 /// excluded from `text_len`.
739 text: Vec<u8>,
740 /// Prompt length in bytes, excluding the trailing NUL sentinel. Passed
741 /// verbatim as `mtmd_input_text::text_len`, so interior NULs are honoured.
742 text_len: usize,
743 add_special: bool,
744 parse_special: bool,
745 _marker: std::marker::PhantomData<&'a ()>,
746}
747
748impl<'a> MtmdInputText<'a> {
749 /// Create a new `MtmdInputText` from a string prompt.
750 ///
751 /// * `text` – the prompt (interior NUL bytes are permitted and
752 /// preserved)
753 /// * `add_special` – whether to add BOS/EOS tokens
754 /// * `parse_special` – whether to parse special tokens embedded in the text
755 #[must_use]
756 pub fn new(text: &'a str, add_special: bool, parse_special: bool) -> Self {
757 Self::from_bytes(text.as_bytes(), add_special, parse_special)
758 }
759
760 /// Create a new `MtmdInputText` from raw prompt bytes.
761 ///
762 /// Unlike a C string, the prompt length is carried explicitly, so `text`
763 /// may contain interior NUL bytes without truncating the prompt. The bytes
764 /// are copied into an owned, NUL-terminated buffer.
765 ///
766 /// * `text` – the prompt bytes (typically UTF-8)
767 /// * `add_special` – whether to add BOS/EOS tokens
768 /// * `parse_special` – whether to parse special tokens embedded in the text
769 #[must_use]
770 pub fn from_bytes(text: &'a [u8], add_special: bool, parse_special: bool) -> Self {
771 let text_len = text.len();
772 let mut buf = Vec::with_capacity(text_len + 1);
773 buf.extend_from_slice(text);
774 buf.push(0); // NUL sentinel, not counted in `text_len`
775 Self {
776 text: buf,
777 text_len,
778 add_special,
779 parse_special,
780 _marker: std::marker::PhantomData,
781 }
782 }
783
784 /// Try to create a new `MtmdInputText` from a string prompt.
785 ///
786 /// Retained for backwards compatibility. Interior NUL bytes are now
787 /// permitted (see [`MtmdInputText::new`]), so this never returns `Err`;
788 /// prefer [`new`](MtmdInputText::new).
789 ///
790 /// # Errors
791 ///
792 /// Never returns an error; the `Result` is kept for API stability.
793 pub fn try_new(
794 text: &'a str,
795 add_special: bool,
796 parse_special: bool,
797 ) -> std::result::Result<Self, std::ffi::NulError> {
798 Ok(Self::new(text, add_special, parse_special))
799 }
800}
801
802// ─────────────────────────────────────────────────────────────────────────────
803// MtmdBitmap
804// ─────────────────────────────────────────────────────────────────────────────
805
806/// An image or audio bitmap ready for multimodal encoding.
807///
808/// # Image bitmaps
809///
810/// The raw pixel data must be in RGBRGBRGB… (interleaved) format. The total
811/// number of bytes must be `nx * ny * 3`.
812///
813/// # Audio bitmaps
814///
815/// The raw sample data must be little-endian `f32` PCM samples. The total
816/// number of bytes must be `n_samples * 4`.
817pub struct MtmdBitmap {
818 ptr: NonNull<sys::mtmd_bitmap>,
819}
820
821unsafe impl Send for MtmdBitmap {}
822unsafe impl Sync for MtmdBitmap {}
823
824impl std::fmt::Debug for MtmdBitmap {
825 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
826 f.debug_struct("MtmdBitmap")
827 .field("nx", &self.nx())
828 .field("ny", &self.ny())
829 .field("n_bytes", &self.n_bytes())
830 .field("is_audio", &self.is_audio())
831 .finish()
832 }
833}
834
835impl Drop for MtmdBitmap {
836 fn drop(&mut self) {
837 unsafe { sys::mtmd_bitmap_free(self.ptr.as_ptr()) }
838 }
839}
840
841impl MtmdBitmap {
842 /// Create a bitmap from raw RGB pixel data.
843 ///
844 /// * `nx` – image width in pixels
845 /// * `ny` – image height in pixels
846 /// * `data` – raw pixel bytes in RGBRGB… format; must be `nx * ny * 3` bytes
847 ///
848 /// # Errors
849 ///
850 /// Returns [`MtmdError::BitmapCreateFailed`] if the underlying C call
851 /// returns null.
852 pub fn from_rgb(nx: u32, ny: u32, data: &[u8]) -> Result<Self> {
853 let ptr = unsafe { sys::mtmd_bitmap_init(nx, ny, data.as_ptr()) };
854 let ptr = NonNull::new(ptr).ok_or(MtmdError::BitmapCreateFailed)?;
855 Ok(Self { ptr })
856 }
857
858 /// Create an audio bitmap from PCM `f32` samples.
859 ///
860 /// * `samples` – slice of PCM float samples
861 ///
862 /// # Errors
863 ///
864 /// Returns [`MtmdError::BitmapCreateFailed`] if the underlying C call
865 /// returns null.
866 pub fn from_audio(samples: &[f32]) -> Result<Self> {
867 let ptr = unsafe { sys::mtmd_bitmap_init_from_audio(samples.len(), samples.as_ptr()) };
868 let ptr = NonNull::new(ptr).ok_or(MtmdError::BitmapCreateFailed)?;
869 Ok(Self { ptr })
870 }
871
872 /// Build an `MtmdBitmap` from a `mtmd_helper_bitmap_wrapper`, taking
873 /// ownership of the `bitmap` and freeing any `video_ctx`.
874 ///
875 /// The `from_file`/`from_buf` constructors only support image/audio input.
876 /// When the input is a video the helper returns a non-null `video_ctx`
877 /// (an open ffmpeg stream) which is not representable as an `MtmdBitmap`;
878 /// we free it here to avoid leaking it. Use [`MtmdVideo`] for video input.
879 fn from_wrapper(wrapper: sys::mtmd_helper_bitmap_wrapper) -> Result<Self> {
880 if !wrapper.video_ctx.is_null() {
881 unsafe { sys::mtmd_helper_video_free(wrapper.video_ctx) };
882 }
883 let ptr = NonNull::new(wrapper.bitmap).ok_or(MtmdError::BitmapCreateFailed)?;
884 Ok(Self { ptr })
885 }
886
887 /// Load a bitmap from a file (image or audio).
888 ///
889 /// Supported image formats: JPEG, PNG, BMP, GIF, and others handled by
890 /// `stb_image`. Supported audio formats: WAV, MP3, FLAC (via miniaudio).
891 ///
892 /// # Errors
893 ///
894 /// Returns [`MtmdError::BitmapCreateFailed`] if the file cannot be loaded.
895 pub fn from_file(ctx: &MtmdContext, path: impl AsRef<Path>) -> Result<Self> {
896 let path = path.as_ref().to_str().ok_or(MtmdError::PathNotUtf8)?;
897 let c_path = CString::new(path)?;
898
899 // `placeholder = false`: load the real bitmap data (not a token-count
900 // placeholder). For image/audio the returned `video_ctx` is always null.
901 let wrapper = unsafe {
902 sys::mtmd_helper_bitmap_init_from_file(ctx.ptr.as_ptr(), c_path.as_ptr(), false)
903 };
904 Self::from_wrapper(wrapper)
905 }
906
907 /// Load a bitmap from an in-memory buffer containing a file.
908 ///
909 /// The format is auto-detected (image vs audio via magic bytes).
910 ///
911 /// # Errors
912 ///
913 /// Returns [`MtmdError::BitmapCreateFailed`] if decoding fails.
914 pub fn from_buf(ctx: &MtmdContext, buf: &[u8]) -> Result<Self> {
915 // `placeholder = false`: load the real bitmap data (not a token-count
916 // placeholder). For image/audio the returned `video_ctx` is always null.
917 let wrapper = unsafe {
918 sys::mtmd_helper_bitmap_init_from_buf(ctx.ptr.as_ptr(), buf.as_ptr(), buf.len(), false)
919 };
920 Self::from_wrapper(wrapper)
921 }
922
923 // ── Getters ───────────────────────────────────────────────────────────
924
925 /// Width in pixels (for images) or 0 (for audio).
926 #[must_use]
927 pub fn nx(&self) -> u32 {
928 unsafe { sys::mtmd_bitmap_get_nx(self.ptr.as_ptr()) }
929 }
930
931 /// Height in pixels (for images) or 0 (for audio).
932 #[must_use]
933 pub fn ny(&self) -> u32 {
934 unsafe { sys::mtmd_bitmap_get_ny(self.ptr.as_ptr()) }
935 }
936
937 /// Total number of bytes in the bitmap data.
938 #[must_use]
939 pub fn n_bytes(&self) -> usize {
940 unsafe { sys::mtmd_bitmap_get_n_bytes(self.ptr.as_ptr()) }
941 }
942
943 /// Returns `true` if this bitmap contains audio (rather than image) data.
944 #[must_use]
945 pub fn is_audio(&self) -> bool {
946 unsafe { sys::mtmd_bitmap_is_audio(self.ptr.as_ptr()) }
947 }
948
949 /// Return the raw pixel / sample data.
950 #[must_use]
951 pub fn data(&self) -> &[u8] {
952 let n = self.n_bytes();
953 if n == 0 {
954 return &[];
955 }
956 let ptr = unsafe { sys::mtmd_bitmap_get_data(self.ptr.as_ptr()) };
957 unsafe { slice::from_raw_parts(ptr, n) }
958 }
959
960 /// Return the optional ID string attached to this bitmap (used for KV
961 /// cache tracking), or `None` if no ID has been set.
962 #[must_use]
963 pub fn id(&self) -> Option<&str> {
964 let ptr = unsafe { sys::mtmd_bitmap_get_id(self.ptr.as_ptr()) };
965 if ptr.is_null() {
966 return None;
967 }
968 unsafe { CStr::from_ptr(ptr) }.to_str().ok()
969 }
970
971 /// Attach an optional ID string to this bitmap (used for KV cache
972 /// tracking).
973 ///
974 /// # Errors
975 ///
976 /// Returns an error if `id` contains an interior NUL byte.
977 pub fn set_id(&mut self, id: &str) -> std::result::Result<(), std::ffi::NulError> {
978 let cs = CString::new(id)?;
979 unsafe { sys::mtmd_bitmap_set_id(self.ptr.as_ptr(), cs.as_ptr()) };
980 Ok(())
981 }
982}
983
984// ─────────────────────────────────────────────────────────────────────────────
985// Video input
986// ─────────────────────────────────────────────────────────────────────────────
987
988// `free()` from libc — used to release the heap-allocated text returned by
989// `mtmd_helper_video_read_next` (the C side allocates it with strdup/malloc and
990// documents that the caller must release it with `free()`).
991extern "C" {
992 fn free(ptr: *mut std::os::raw::c_void);
993}
994
995/// Parameters controlling how a [`MtmdVideo`] stream is opened and sampled.
996///
997/// Obtain a default-initialised instance via [`MtmdVideoParams::default()`]
998/// (which mirrors `mtmd_helper_video_init_params_default`: ~4 fps, native
999/// `ffmpeg`/`ffprobe` from `PATH`, and a 5 s timestamp interval) and tweak it
1000/// with the builder methods.
1001pub struct MtmdVideoParams {
1002 params: sys::mtmd_helper_video_init_params,
1003 // Keeps the `ffmpeg_bin_dir` C string alive for as long as `params`
1004 // borrows it via a raw pointer.
1005 ffmpeg_bin_dir: Option<CString>,
1006}
1007
1008impl std::fmt::Debug for MtmdVideoParams {
1009 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
1010 f.debug_struct("MtmdVideoParams")
1011 .field("fps_target", &self.params.fps_target)
1012 .field("timestamp_interval_ms", &self.params.timestamp_interval_ms)
1013 .field("ffmpeg_bin_dir", &self.ffmpeg_bin_dir)
1014 .finish()
1015 }
1016}
1017
1018impl Default for MtmdVideoParams {
1019 fn default() -> Self {
1020 let params = unsafe { sys::mtmd_helper_video_init_params_default() };
1021 Self {
1022 params,
1023 ffmpeg_bin_dir: None,
1024 }
1025 }
1026}
1027
1028impl MtmdVideoParams {
1029 /// Desired output frame rate. Values `<= 0` mean "use the video's native
1030 /// fps" (the default is ~4 fps).
1031 #[must_use]
1032 pub fn fps_target(mut self, fps: f32) -> Self {
1033 self.params.fps_target = fps;
1034 self
1035 }
1036
1037 /// Interval, in milliseconds, between inserted timestamp text chunks (e.g.
1038 /// `"[10m50.5s]"`). Values `<= 0` disable timestamps (default 5000 ms).
1039 #[must_use]
1040 pub fn timestamp_interval_ms(mut self, ms: i64) -> Self {
1041 self.params.timestamp_interval_ms = ms;
1042 self
1043 }
1044
1045 /// Directory containing the `ffmpeg`/`ffprobe` binaries. Pass `None` to
1046 /// search `PATH` (the default).
1047 ///
1048 /// # Errors
1049 ///
1050 /// Returns an error if `dir` contains an interior NUL byte.
1051 pub fn ffmpeg_bin_dir(mut self, dir: Option<&str>) -> Result<Self> {
1052 match dir {
1053 None => {
1054 self.params.ffmpeg_bin_dir = std::ptr::null();
1055 self.ffmpeg_bin_dir = None;
1056 }
1057 Some(d) => {
1058 let cs = CString::new(d)?;
1059 self.params.ffmpeg_bin_dir = cs.as_ptr();
1060 // Store the owner so the pointer above stays valid.
1061 self.ffmpeg_bin_dir = Some(cs);
1062 }
1063 }
1064 Ok(self)
1065 }
1066}
1067
1068/// Metadata describing an open [`MtmdVideo`] stream.
1069#[derive(Debug, Clone, Copy, PartialEq)]
1070pub struct MtmdVideoInfo {
1071 /// Frame width in pixels.
1072 pub width: u32,
1073 /// Frame height in pixels.
1074 pub height: u32,
1075 /// Effective frames-per-second (the `fps_target` if set, else native fps).
1076 pub fps: f32,
1077 /// Estimated total frame count at the effective fps (`-1` if unknown).
1078 pub n_frames: i32,
1079}
1080
1081/// One item read from a [`MtmdVideo`] stream by [`MtmdVideo::read_next`].
1082#[derive(Debug)]
1083pub enum MtmdVideoItem {
1084 /// A decoded video frame, ready to be tokenized like any other image
1085 /// [`MtmdBitmap`].
1086 Frame(MtmdBitmap),
1087 /// A timestamp text marker (e.g. `"[10m50.5s]"`) to be inserted into the
1088 /// prompt between frames.
1089 Text(String),
1090}
1091
1092/// An open video stream, decoded frame-by-frame via `ffmpeg`.
1093///
1094/// The notion of "video" exists only at the helper level — it is decoded into
1095/// a sequence of image [frames](MtmdVideoItem::Frame) and timestamp
1096/// [text markers](MtmdVideoItem::Text) which are then fed through the normal
1097/// multimodal pipeline.
1098///
1099/// Requires a build with video support (see [`MtmdContext::supports_video`])
1100/// and `ffmpeg`/`ffprobe` available at runtime.
1101///
1102/// # Example
1103///
1104/// ```no_run
1105/// # #[cfg(feature = "mtmd")]
1106/// # fn run(mtmd_ctx: &llama_cpp_4::mtmd::MtmdContext) -> Result<(), llama_cpp_4::mtmd::MtmdError> {
1107/// use std::path::Path;
1108/// use llama_cpp_4::mtmd::{MtmdVideo, MtmdVideoParams, MtmdVideoItem};
1109///
1110/// let mut video = MtmdVideo::from_file(mtmd_ctx, Path::new("clip.mp4"),
1111/// &MtmdVideoParams::default())?;
1112/// while let Some(item) = video.read_next()? {
1113/// match item {
1114/// MtmdVideoItem::Frame(bitmap) => { /* tokenize the frame */ }
1115/// MtmdVideoItem::Text(ts) => { /* insert the timestamp marker */ }
1116/// }
1117/// }
1118/// # Ok(())
1119/// # }
1120/// ```
1121pub struct MtmdVideo {
1122 ptr: NonNull<sys::mtmd_helper_video>,
1123}
1124
1125impl std::fmt::Debug for MtmdVideo {
1126 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
1127 f.debug_struct("MtmdVideo")
1128 .field("info", &self.info())
1129 .finish()
1130 }
1131}
1132
1133impl Drop for MtmdVideo {
1134 fn drop(&mut self) {
1135 unsafe { sys::mtmd_helper_video_free(self.ptr.as_ptr()) }
1136 }
1137}
1138
1139impl MtmdVideo {
1140 /// Open a video file for frame-by-frame decoding.
1141 ///
1142 /// # Errors
1143 ///
1144 /// Returns [`MtmdError::VideoInitFailed`] if the stream cannot be opened
1145 /// (no video support compiled in, `ffprobe` not found, file unreadable,
1146 /// …), or [`MtmdError::InvalidPath`] / [`MtmdError::PathNotUtf8`] for a bad
1147 /// path.
1148 pub fn from_file(
1149 ctx: &MtmdContext,
1150 path: impl AsRef<Path>,
1151 params: &MtmdVideoParams,
1152 ) -> Result<Self> {
1153 let path = path.as_ref().to_str().ok_or(MtmdError::PathNotUtf8)?;
1154 let c_path = CString::new(path)?;
1155 let ptr = unsafe {
1156 sys::mtmd_helper_video_init(ctx.ptr.as_ptr(), c_path.as_ptr(), params.params)
1157 };
1158 let ptr = NonNull::new(ptr).ok_or(MtmdError::VideoInitFailed)?;
1159 Ok(Self { ptr })
1160 }
1161
1162 /// Open a video from an in-memory buffer. The buffer is copied internally,
1163 /// so it need not outlive this call.
1164 ///
1165 /// # Errors
1166 ///
1167 /// Returns [`MtmdError::VideoInitFailed`] if the stream cannot be opened.
1168 pub fn from_buf(ctx: &MtmdContext, buf: &[u8], params: &MtmdVideoParams) -> Result<Self> {
1169 let ptr = unsafe {
1170 sys::mtmd_helper_video_init_from_buf(
1171 ctx.ptr.as_ptr(),
1172 buf.as_ptr(),
1173 buf.len(),
1174 params.params,
1175 )
1176 };
1177 let ptr = NonNull::new(ptr).ok_or(MtmdError::VideoInitFailed)?;
1178 Ok(Self { ptr })
1179 }
1180
1181 /// Return metadata (resolution, effective fps, estimated frame count) for
1182 /// this stream.
1183 #[must_use]
1184 pub fn info(&self) -> MtmdVideoInfo {
1185 let info = unsafe { sys::mtmd_helper_video_get_info(self.ptr.as_ptr()) };
1186 MtmdVideoInfo {
1187 width: info.width,
1188 height: info.height,
1189 fps: info.fps,
1190 n_frames: info.n_frames,
1191 }
1192 }
1193
1194 /// Read the next item from the stream.
1195 ///
1196 /// Returns `Ok(Some(item))` for each frame or timestamp marker, and
1197 /// `Ok(None)` once the end of the stream is reached.
1198 ///
1199 /// # Errors
1200 ///
1201 /// Returns [`MtmdError::VideoReadError`] on a decode error.
1202 pub fn read_next(&mut self) -> Result<Option<MtmdVideoItem>> {
1203 let mut out_bitmap: *mut sys::mtmd_bitmap = std::ptr::null_mut();
1204 let mut out_text: *mut std::os::raw::c_char = std::ptr::null_mut();
1205 let ret = unsafe {
1206 sys::mtmd_helper_video_read_next(
1207 self.ptr.as_ptr(),
1208 &raw mut out_bitmap,
1209 &raw mut out_text,
1210 )
1211 };
1212 match ret {
1213 0 => {
1214 if let Some(ptr) = NonNull::new(out_bitmap) {
1215 Ok(Some(MtmdVideoItem::Frame(MtmdBitmap { ptr })))
1216 } else if !out_text.is_null() {
1217 let text = unsafe { CStr::from_ptr(out_text) }
1218 .to_string_lossy()
1219 .into_owned();
1220 // The C side allocated this with strdup/malloc; release it.
1221 unsafe { free(out_text.cast()) };
1222 Ok(Some(MtmdVideoItem::Text(text)))
1223 } else {
1224 // Success but nothing produced — treat as end of stream.
1225 Ok(None)
1226 }
1227 }
1228 -1 => Ok(None), // EOF
1229 other => Err(MtmdError::VideoReadError(other)),
1230 }
1231 }
1232}
1233
1234// ─────────────────────────────────────────────────────────────────────────────
1235// MtmdInputChunks
1236// ─────────────────────────────────────────────────────────────────────────────
1237
1238/// A list of tokenized input chunks produced by [`MtmdContext::tokenize`].
1239///
1240/// Each chunk is either a text token sequence or a set of image/audio tokens.
1241pub struct MtmdInputChunks {
1242 ptr: NonNull<sys::mtmd_input_chunks>,
1243}
1244
1245impl std::fmt::Debug for MtmdInputChunks {
1246 fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
1247 f.debug_struct("MtmdInputChunks")
1248 .field("len", &self.len())
1249 .finish()
1250 }
1251}
1252
1253impl Drop for MtmdInputChunks {
1254 fn drop(&mut self) {
1255 unsafe { sys::mtmd_input_chunks_free(self.ptr.as_ptr()) }
1256 }
1257}
1258
1259impl MtmdInputChunks {
1260 /// Create a new, empty chunk list. Populated by
1261 /// [`MtmdContext::tokenize`].
1262 ///
1263 /// # Panics
1264 ///
1265 /// Panics if the underlying C allocation fails (OOM).
1266 #[must_use]
1267 pub fn new() -> Self {
1268 let ptr = unsafe { sys::mtmd_input_chunks_init() };
1269 let ptr = NonNull::new(ptr).expect("mtmd_input_chunks_init returned null");
1270 Self { ptr }
1271 }
1272
1273 /// Number of chunks in this list.
1274 #[must_use]
1275 pub fn len(&self) -> usize {
1276 unsafe { sys::mtmd_input_chunks_size(self.ptr.as_ptr()) }
1277 }
1278
1279 /// Returns `true` if there are no chunks.
1280 #[must_use]
1281 pub fn is_empty(&self) -> bool {
1282 self.len() == 0
1283 }
1284
1285 /// Get the `idx`-th chunk. Returns `None` if `idx >= len()`.
1286 #[must_use]
1287 pub fn get(&self, idx: usize) -> Option<MtmdInputChunk<'_>> {
1288 if idx >= self.len() {
1289 return None;
1290 }
1291 let ptr = unsafe { sys::mtmd_input_chunks_get(self.ptr.as_ptr(), idx) };
1292 if ptr.is_null() {
1293 return None;
1294 }
1295 Some(MtmdInputChunk {
1296 ptr,
1297 _marker: std::marker::PhantomData,
1298 })
1299 }
1300
1301 /// Iterate over all chunks.
1302 pub fn iter(&self) -> impl Iterator<Item = MtmdInputChunk<'_>> {
1303 (0..self.len()).filter_map(|i| self.get(i))
1304 }
1305
1306 /// Total number of tokens across all chunks.
1307 ///
1308 /// Equivalent to `mtmd_helper_get_n_tokens`.
1309 #[must_use]
1310 pub fn n_tokens(&self) -> usize {
1311 unsafe { sys::mtmd_helper_get_n_tokens(self.ptr.as_ptr()) }
1312 }
1313
1314 /// Total number of *positions* across all chunks (used for KV-cache
1315 /// tracking with M-RoPE models where positions ≠ tokens).
1316 ///
1317 /// Equivalent to `mtmd_helper_get_n_pos`.
1318 #[must_use]
1319 pub fn n_pos(&self) -> i32 {
1320 unsafe { sys::mtmd_helper_get_n_pos(self.ptr.as_ptr()) }
1321 }
1322}
1323
1324impl Default for MtmdInputChunks {
1325 fn default() -> Self {
1326 Self::new()
1327 }
1328}
1329
1330// ─────────────────────────────────────────────────────────────────────────────
1331// MtmdInputChunkType
1332// ─────────────────────────────────────────────────────────────────────────────
1333
1334/// The type of an [`MtmdInputChunk`].
1335#[derive(Debug, Clone, Copy, PartialEq, Eq)]
1336pub enum MtmdInputChunkType {
1337 /// Plain text tokens.
1338 Text,
1339 /// Image tokens (embeddings produced by the vision encoder).
1340 Image,
1341 /// Audio tokens (embeddings produced by the audio encoder).
1342 Audio,
1343}
1344
1345impl From<sys::mtmd_input_chunk_type> for MtmdInputChunkType {
1346 fn from(v: sys::mtmd_input_chunk_type) -> Self {
1347 // mtmd_input_chunk_type is a plain C `typedef unsigned int`.
1348 // The variants are exported as free-standing constants.
1349 if v == sys::MTMD_INPUT_CHUNK_TYPE_IMAGE {
1350 Self::Image
1351 } else if v == sys::MTMD_INPUT_CHUNK_TYPE_AUDIO {
1352 Self::Audio
1353 } else {
1354 Self::Text
1355 }
1356 }
1357}
1358
1359// ─────────────────────────────────────────────────────────────────────────────
1360// MtmdInputChunk
1361// ─────────────────────────────────────────────────────────────────────────────
1362
1363/// A single tokenized input chunk (text, image, or audio).
1364///
1365/// Instances are borrowed from an [`MtmdInputChunks`] list and live as long
1366/// as that list.
1367#[derive(Debug)]
1368pub struct MtmdInputChunk<'chunks> {
1369 ptr: *const sys::mtmd_input_chunk,
1370 _marker: std::marker::PhantomData<&'chunks MtmdInputChunks>,
1371}
1372
1373impl<'chunks> MtmdInputChunk<'chunks> {
1374 /// The type of this chunk.
1375 #[must_use]
1376 pub fn chunk_type(&self) -> MtmdInputChunkType {
1377 let t = unsafe { sys::mtmd_input_chunk_get_type(self.ptr) };
1378 MtmdInputChunkType::from(t)
1379 }
1380
1381 /// Total number of tokens in this chunk.
1382 #[must_use]
1383 pub fn n_tokens(&self) -> usize {
1384 unsafe { sys::mtmd_input_chunk_get_n_tokens(self.ptr) }
1385 }
1386
1387 /// Number of temporal positions (equals `n_tokens` for non-M-RoPE models).
1388 #[must_use]
1389 pub fn n_pos(&self) -> i32 {
1390 unsafe { sys::mtmd_input_chunk_get_n_pos(self.ptr) }
1391 }
1392
1393 /// Return the raw llama token IDs for a **text** chunk.
1394 ///
1395 /// Returns `None` if this chunk is not a text chunk.
1396 #[must_use]
1397 pub fn text_tokens(&self) -> Option<&[i32]> {
1398 if self.chunk_type() != MtmdInputChunkType::Text {
1399 return None;
1400 }
1401 let mut n: usize = 0;
1402 let ptr = unsafe { sys::mtmd_input_chunk_get_tokens_text(self.ptr, &raw mut n) };
1403 if ptr.is_null() || n == 0 {
1404 return Some(&[]);
1405 }
1406 Some(unsafe { slice::from_raw_parts(ptr, n) })
1407 }
1408
1409 /// Return the image token metadata for an **image** or **audio** chunk.
1410 ///
1411 /// Returns `None` for text chunks.
1412 #[must_use]
1413 pub fn image_tokens(&self) -> Option<MtmdImageTokens<'chunks>> {
1414 match self.chunk_type() {
1415 MtmdInputChunkType::Image | MtmdInputChunkType::Audio => {}
1416 MtmdInputChunkType::Text => return None,
1417 }
1418 let ptr = unsafe { sys::mtmd_input_chunk_get_tokens_image(self.ptr) };
1419 if ptr.is_null() {
1420 return None;
1421 }
1422 Some(MtmdImageTokens {
1423 ptr,
1424 _marker: std::marker::PhantomData,
1425 })
1426 }
1427
1428 /// Optional ID attached to this chunk (used for KV cache tracking).
1429 #[must_use]
1430 pub fn id(&self) -> Option<&str> {
1431 let ptr = unsafe { sys::mtmd_input_chunk_get_id(self.ptr) };
1432 if ptr.is_null() {
1433 return None;
1434 }
1435 unsafe { CStr::from_ptr(ptr) }.to_str().ok()
1436 }
1437
1438 /// Returns the raw `*const mtmd_input_chunk` pointer.
1439 ///
1440 /// # Safety
1441 ///
1442 /// The returned pointer is valid for the lifetime of the parent
1443 /// `MtmdInputChunks`.
1444 #[must_use]
1445 pub fn as_ptr(&self) -> *const sys::mtmd_input_chunk {
1446 self.ptr
1447 }
1448}
1449
1450// ─────────────────────────────────────────────────────────────────────────────
1451// MtmdDecoderPos
1452// ─────────────────────────────────────────────────────────────────────────────
1453
1454/// Per-token position used by M-RoPE decoder attention.
1455///
1456/// `t` is the temporal axis, `x`/`y` the spatial axes. `z` is reserved for
1457/// future use. Values are *relative* to a base `pos_0` provided when the
1458/// position is computed.
1459#[derive(Debug, Clone, Copy, PartialEq, Eq, Default)]
1460#[repr(C)]
1461pub struct MtmdDecoderPos {
1462 /// Temporal index.
1463 pub t: u32,
1464 /// Spatial X.
1465 pub x: u32,
1466 /// Spatial Y.
1467 pub y: u32,
1468 /// Reserved.
1469 pub z: u32,
1470}
1471
1472// ─────────────────────────────────────────────────────────────────────────────
1473// MtmdImageTokens
1474// ─────────────────────────────────────────────────────────────────────────────
1475
1476/// Image/audio token metadata attached to a non-text [`MtmdInputChunk`].
1477#[derive(Debug)]
1478pub struct MtmdImageTokens<'chunks> {
1479 ptr: *const sys::mtmd_image_tokens,
1480 _marker: std::marker::PhantomData<&'chunks MtmdInputChunks>,
1481}
1482
1483impl MtmdImageTokens<'_> {
1484 /// Total number of embedding tokens.
1485 #[must_use]
1486 pub fn n_tokens(&self) -> usize {
1487 unsafe { sys::mtmd_image_tokens_get_n_tokens(self.ptr) }
1488 }
1489
1490 /// Width of the token grid.
1491 #[must_use]
1492 pub fn nx(&self) -> usize {
1493 unsafe { sys::mtmd_image_tokens_get_nx(self.ptr) }
1494 }
1495
1496 /// Height of the token grid.
1497 #[must_use]
1498 pub fn ny(&self) -> usize {
1499 unsafe { sys::mtmd_image_tokens_get_ny(self.ptr) }
1500 }
1501
1502 /// Number of temporal positions (M-RoPE variant; equals `n_tokens` otherwise).
1503 #[must_use]
1504 pub fn n_pos(&self) -> i32 {
1505 unsafe { sys::mtmd_image_tokens_get_n_pos(self.ptr) }
1506 }
1507
1508 /// Optional ID for KV cache tracking.
1509 #[must_use]
1510 pub fn id(&self) -> Option<&str> {
1511 let ptr = unsafe { sys::mtmd_image_tokens_get_id(self.ptr) };
1512 if ptr.is_null() {
1513 return None;
1514 }
1515 unsafe { CStr::from_ptr(ptr) }.to_str().ok()
1516 }
1517
1518 /// Compute the per-token decoder positions used by M-RoPE models.
1519 ///
1520 /// Returns a vector of length [`n_tokens`](Self::n_tokens). Each entry
1521 /// is relative to `pos_0`; for non-M-RoPE models this typically reduces
1522 /// to `(0, i, 0, 0)` for the i-th token.
1523 ///
1524 /// Wraps `mtmd_helper_image_get_decoder_pos`.
1525 #[must_use]
1526 pub fn decoder_positions(&self, pos_0: i32) -> Vec<MtmdDecoderPos> {
1527 let n = self.n_tokens();
1528 let mut out = vec![MtmdDecoderPos::default(); n];
1529 if n == 0 {
1530 return out;
1531 }
1532 unsafe {
1533 sys::mtmd_helper_image_get_decoder_pos(
1534 self.ptr,
1535 pos_0,
1536 out.as_mut_ptr().cast::<sys::mtmd_decoder_pos>(),
1537 );
1538 }
1539 out
1540 }
1541}
1542
1543// ─────────────────────────────────────────────────────────────────────────────
1544// LlamaContext extension
1545// ─────────────────────────────────────────────────────────────────────────────
1546
1547use crate::context::LlamaContext;
1548
1549impl LlamaContext<'_> {
1550 /// Expose the raw `llama_context` pointer for use with mtmd helpers.
1551 ///
1552 /// # Safety
1553 ///
1554 /// The pointer is valid for the lifetime of this `LlamaContext` and must
1555 /// not be freed by the caller.
1556 #[must_use]
1557 pub fn as_ptr(&self) -> *mut sys::llama_context {
1558 self.context.as_ptr()
1559 }
1560}
1561
1562#[cfg(test)]
1563mod tests {
1564 use super::*;
1565
1566 #[test]
1567 fn decoder_pos_layout_matches_sys() {
1568 // The Rust MtmdDecoderPos is cast to sys::mtmd_decoder_pos at the
1569 // FFI boundary in `MtmdImageTokens::decoder_positions`. Verify the
1570 // assumption.
1571 assert_eq!(
1572 std::mem::size_of::<MtmdDecoderPos>(),
1573 std::mem::size_of::<sys::mtmd_decoder_pos>(),
1574 );
1575 assert_eq!(
1576 std::mem::align_of::<MtmdDecoderPos>(),
1577 std::mem::align_of::<sys::mtmd_decoder_pos>(),
1578 );
1579 assert_eq!(std::mem::offset_of!(MtmdDecoderPos, t), 0);
1580 assert_eq!(std::mem::offset_of!(MtmdDecoderPos, x), 4);
1581 assert_eq!(std::mem::offset_of!(MtmdDecoderPos, y), 8);
1582 assert_eq!(std::mem::offset_of!(MtmdDecoderPos, z), 12);
1583 }
1584
1585 #[test]
1586 fn input_text_records_byte_length_and_nul_terminates() {
1587 let input = MtmdInputText::new("hello", true, false);
1588 // text_len is the prompt length, excluding the trailing NUL sentinel.
1589 assert_eq!(input.text_len, 5);
1590 assert_eq!(input.text, b"hello\0");
1591 assert!(input.add_special);
1592 assert!(!input.parse_special);
1593 }
1594
1595 #[test]
1596 fn input_text_preserves_interior_nul() {
1597 // The whole point of upstream's `text_len`: a prompt with an embedded
1598 // NUL must keep its full length rather than truncating at the NUL.
1599 let input = MtmdInputText::from_bytes(b"a\0b", false, true);
1600 assert_eq!(input.text_len, 3);
1601 assert_eq!(input.text, b"a\0b\0");
1602 }
1603
1604 #[test]
1605 fn input_text_try_new_is_infallible() {
1606 let input = MtmdInputText::try_new("marker \u{1} data", true, true)
1607 .expect("try_new no longer rejects any input");
1608 assert_eq!(input.text_len, "marker \u{1} data".len());
1609 }
1610}