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consciousness/src/subconscious/learn.rs

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switch memory scoring to /v1/score endpoint Replace prompt_logprobs-based scoring with the new vLLM /v1/score endpoint. Much simpler: one API call per memory drop, returns per-message total_logprob directly. No chunking needed, no OOM risk — the endpoint only computes logits for scored tokens. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 00:31:57 -04:00
// training.rs — Memory importance scoring via /v1/score
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
//
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
// Three scoring modes, all built on the same call_score() primitive:
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
//
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
// score_memories() — Full N×M matrix (memories × responses) for the
// debug screen. Expensive: N+1 API calls.
//
// memory_score() — Single memory importance. Scores the 50 messages
// after it was surfaced, with/without that memory.
// 2 API calls.
//
// finetune_score() — Identifies training candidates. Scores recent
// messages with all memories stripped. Responses
// with high divergence depend on memories the model
// hasn't internalized. 2 API calls.
Move API code from user/ to agent/ Signed-off-by: Kent Overstreet <kent.overstreet@linux.dev>
2026-04-04 00:29:11 -04:00
more reorg
2026-04-05 01:48:11 -04:00
use crate::agent::api::ApiClient;
Restrict API types visibility — types module is now private Only Message, Role, MessageContent, ContentPart, ToolCall, FunctionCall, Usage, ImageUrl are pub-exported from agent::api. Internal types (ChatRequest, ChatCompletionChunk, ChunkChoice, Delta, ReasoningConfig, ToolCallDelta, FunctionCallDelta) are pub(crate) — invisible outside the crate. All callers updated to import from agent::api:: instead of agent::api::types::. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 13:39:20 -04:00
use crate::agent::api::*;
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
use crate::agent::context::{ConversationEntry, ContextEntry, ContextState};
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
scoring: add timeouts, progress feedback, error resilience - 120s timeout on individual /v1/score HTTP calls - Activity bar shows "scoring 3/24: memory-key..." - Info messages at start and completion - Per-memory timing and importance in debug pane - Failed individual memories log error but don't abort (zero row) - Removed duplicate completion message (info from score_memories) Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 01:07:47 -04:00
const SCORE_TIMEOUT: std::time::Duration = std::time::Duration::from_secs(120);
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
// ── Message building ────────────────────────────────────────────
/// What to filter when building the message array for scoring.
enum Filter<'a> {
None,
SkipIndex(usize),
SkipKey(&'a str),
SkipAllMemories,
}
/// Build the messages array for a scoring call.
///
/// Always includes system prompt + context message as prefix, then
/// entries from `range` filtered by `filter`.
fn build_messages(
context: &ContextState,
range: std::ops::Range<usize>,
filter: Filter,
) -> Vec<serde_json::Value> {
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let mut msgs = Vec::new();
for e in context.system.entries() {
msgs.push(serde_json::json!({"role": "system", "content": e.entry.message().content_text()}));
}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let ctx = context.render_context_message();
if !ctx.is_empty() {
msgs.push(serde_json::json!({"role": "user", "content": ctx}));
}
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let entries = context.conversation.entries();
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
for i in range {
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let ce = &entries[i];
let entry = &ce.entry;
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let skip = match &filter {
Filter::None => false,
Filter::SkipIndex(idx) => i == *idx,
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
Filter::SkipKey(key) => matches!(entry, ConversationEntry::Memory { key: k, .. } if k == *key),
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
Filter::SkipAllMemories => entry.is_memory(),
};
if skip { continue; }
let m = entry.api_message();
msgs.push(serde_json::json!({
"role": m.role_str(),
"content": m.content_text(),
}));
}
msgs
}
// ── Score API ───────────────────────────────────────────────────
#[derive(serde::Deserialize)]
struct ScoreResult {
total_logprob: f64,
}
#[derive(serde::Deserialize)]
struct ScoreResponse {
scores: Vec<ScoreResult>,
}
Kill reqwest — minimal HTTP client on raw hyper + tokio-rustls New src/agent/api/http.rs: ~240 lines, supports GET/POST, JSON/form bodies, SSE streaming via chunk(), TLS via rustls. No tracing dep. Removes reqwest from the main crate and telegram channel crate. Cargo.lock drops ~900 lines of transitive dependencies. tracing now only pulled in by tui-markdown. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 12:50:40 -04:00
fn http_client() -> crate::agent::api::http::HttpClient {
crate::agent::api::http::HttpClient::builder()
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
.timeout(SCORE_TIMEOUT)
.build()
}
async fn call_score(
Kill reqwest — minimal HTTP client on raw hyper + tokio-rustls New src/agent/api/http.rs: ~240 lines, supports GET/POST, JSON/form bodies, SSE streaming via chunk(), TLS via rustls. No tracing dep. Removes reqwest from the main crate and telegram channel crate. Cargo.lock drops ~900 lines of transitive dependencies. tracing now only pulled in by tui-markdown. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 12:50:40 -04:00
http: &crate::agent::api::http::HttpClient,
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
client: &ApiClient,
messages: &[serde_json::Value],
) -> anyhow::Result<Vec<ScoreResult>> {
Kill reqwest — minimal HTTP client on raw hyper + tokio-rustls New src/agent/api/http.rs: ~240 lines, supports GET/POST, JSON/form bodies, SSE streaming via chunk(), TLS via rustls. No tracing dep. Removes reqwest from the main crate and telegram channel crate. Cargo.lock drops ~900 lines of transitive dependencies. tracing now only pulled in by tui-markdown. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 12:50:40 -04:00
let url = format!("{}/score", client.base_url());
let auth = format!("Bearer {}", client.api_key());
let body = serde_json::json!({
"model": client.model,
"messages": messages,
"logprobs": 1,
});
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let response = http
Kill reqwest — minimal HTTP client on raw hyper + tokio-rustls New src/agent/api/http.rs: ~240 lines, supports GET/POST, JSON/form bodies, SSE streaming via chunk(), TLS via rustls. No tracing dep. Removes reqwest from the main crate and telegram channel crate. Cargo.lock drops ~900 lines of transitive dependencies. tracing now only pulled in by tui-markdown. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 12:50:40 -04:00
.send_json("POST", &url, &[
("authorization", &auth),
], &body)
.await?;
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let status = response.status();
let body: serde_json::Value = response.json().await?;
if !status.is_success() {
let msg = body.get("error").and_then(|e| e.as_str()).unwrap_or("unknown error");
anyhow::bail!("score API HTTP {}: {}", status, msg);
}
if let Some(err) = body.get("error").and_then(|e| e.as_str()) {
anyhow::bail!("score API error: {}", err);
}
let result: ScoreResponse = serde_json::from_value(body)
.map_err(|e| anyhow::anyhow!("failed to parse score response: {}", e))?;
Ok(result.scores)
}
/// Compute per-position logprob divergence: how much worse the model
/// scores each response without something vs with it.
fn divergence(baseline: &[ScoreResult], without: &[ScoreResult]) -> Vec<f64> {
baseline.iter().enumerate()
.map(|(i, base)| {
let without_lp = without.get(i).map(|s| s.total_logprob).unwrap_or(base.total_logprob);
(base.total_logprob - without_lp).max(0.0)
})
.collect()
}
/// Score two message sets and return total divergence.
async fn score_divergence(
Kill reqwest — minimal HTTP client on raw hyper + tokio-rustls New src/agent/api/http.rs: ~240 lines, supports GET/POST, JSON/form bodies, SSE streaming via chunk(), TLS via rustls. No tracing dep. Removes reqwest from the main crate and telegram channel crate. Cargo.lock drops ~900 lines of transitive dependencies. tracing now only pulled in by tui-markdown. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 12:50:40 -04:00
http: &crate::agent::api::http::HttpClient,
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
client: &ApiClient,
context: &ContextState,
range: std::ops::Range<usize>,
filter: Filter<'_>,
) -> anyhow::Result<(Vec<f64>, Vec<ScoreResult>)> {
let baseline = call_score(http, client, &build_messages(context, range.clone(), Filter::None)).await?;
let without = call_score(http, client, &build_messages(context, range, filter)).await?;
let divs = divergence(&baseline, &without);
Ok((divs, baseline))
}
// ── Full matrix scoring (debug screen) ──────────────────────────
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
/// Result of scoring one conversation's memory usage.
pub struct MemoryScore {
pub memory_weights: Vec<(String, f64)>,
pub response_scores: Vec<f64>,
/// Full matrix: divergence[memory_idx][response_idx]
pub matrix: Vec<Vec<f64>>,
pub memory_keys: Vec<String>,
show scoring progress and per-response memory attribution Status bar shows "scoring 3/7..." during scoring. Debug pane logs per-memory importance and top-5 response breakdowns. F10 context screen shows which memories were important for each assistant response as drilldown children (← memory_key (score)). Added important_memories_for_entry() to look up the matrix by conversation entry index. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:27:43 -04:00
pub response_entry_indices: Vec<usize>,
}
impl MemoryScore {
pub fn important_memories_for_entry(&self, entry_idx: usize) -> Vec<(&str, f64)> {
let Some(resp_idx) = self.response_entry_indices.iter().position(|&i| i == entry_idx)
else { return Vec::new() };
let mut result: Vec<(&str, f64)> = self.memory_keys.iter()
.zip(self.matrix.iter())
.filter_map(|(key, row)| {
let score = row.get(resp_idx).copied().unwrap_or(0.0);
if score > 0.01 { Some((key.as_str(), score)) } else { None }
})
.collect();
result.sort_by(|a, b| b.1.partial_cmp(&a.1).unwrap_or(std::cmp::Ordering::Equal));
result
}
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
/// Score how important each memory is to the conversation (full matrix).
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
pub async fn score_memories(
context: &ContextState,
client: &ApiClient,
) -> anyhow::Result<MemoryScore> {
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let mut memory_keys: Vec<String> = context.conversation.entries().iter()
.filter_map(|ce| match &ce.entry {
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
ConversationEntry::Memory { key, .. } => Some(key.clone()),
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
_ => None,
})
.collect();
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
memory_keys.dedup();
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let response_indices: Vec<usize> = context.conversation.entries().iter().enumerate()
.filter(|(_, ce)| ce.entry.message().role == Role::Assistant)
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
.map(|(i, _)| i)
.collect();
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
if memory_keys.is_empty() || response_indices.is_empty() {
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
return Ok(MemoryScore {
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
memory_weights: Vec::new(), response_scores: Vec::new(),
matrix: Vec::new(), memory_keys: Vec::new(),
show scoring progress and per-response memory attribution Status bar shows "scoring 3/7..." during scoring. Debug pane logs per-memory importance and top-5 response breakdowns. F10 context screen shows which memories were important for each assistant response as drilldown children (← memory_key (score)). Added important_memories_for_entry() to look up the matrix by conversation entry index. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:27:43 -04:00
response_entry_indices: Vec::new(),
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
});
}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let http = http_client();
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let range = 0..context.conversation.entries().len();
switch memory scoring to /v1/score endpoint Replace prompt_logprobs-based scoring with the new vLLM /v1/score endpoint. Much simpler: one API call per memory drop, returns per-message total_logprob directly. No chunking needed, no OOM risk — the endpoint only computes logits for scored tokens. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 00:31:57 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let baseline = call_score(&http, client, &build_messages(context, range.clone(), Filter::None)).await?;
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let total = memory_keys.len();
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
let mut matrix: Vec<Vec<f64>> = Vec::new();
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
for (mem_idx, key) in memory_keys.iter().enumerate() {
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:45:55 -04:00
dbglog!(
scoring: add timeouts, progress feedback, error resilience - 120s timeout on individual /v1/score HTTP calls - Activity bar shows "scoring 3/24: memory-key..." - Info messages at start and completion - Per-memory timing and importance in debug pane - Failed individual memories log error but don't abort (zero row) - Removed duplicate completion message (info from score_memories) Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 01:07:47 -04:00
"scoring {}/{}: {}...", mem_idx + 1, total, key,
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:45:55 -04:00
);
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let msgs = build_messages(context, range.clone(), Filter::SkipKey(key));
match call_score(&http, client, &msgs).await {
Ok(without) => matrix.push(divergence(&baseline, &without)),
scoring: add timeouts, progress feedback, error resilience - 120s timeout on individual /v1/score HTTP calls - Activity bar shows "scoring 3/24: memory-key..." - Info messages at start and completion - Per-memory timing and importance in debug pane - Failed individual memories log error but don't abort (zero row) - Removed duplicate completion message (info from score_memories) Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 01:07:47 -04:00
Err(e) => {
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:45:55 -04:00
dbglog!(
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
"[training] {} FAILED: {:#}", key, e,
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:45:55 -04:00
);
scoring: add timeouts, progress feedback, error resilience - 120s timeout on individual /v1/score HTTP calls - Activity bar shows "scoring 3/24: memory-key..." - Info messages at start and completion - Per-memory timing and importance in debug pane - Failed individual memories log error but don't abort (zero row) - Removed duplicate completion message (info from score_memories) Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 01:07:47 -04:00
matrix.push(vec![0.0; baseline.len()]);
}
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
}
}
switch memory scoring to /v1/score endpoint Replace prompt_logprobs-based scoring with the new vLLM /v1/score endpoint. Much simpler: one API call per memory drop, returns per-message total_logprob directly. No chunking needed, no OOM risk — the endpoint only computes logits for scored tokens. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 00:31:57 -04:00
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
let memory_weights: Vec<(String, f64)> = memory_keys.iter()
.zip(matrix.iter())
.map(|(key, row)| (key.clone(), row.iter().sum()))
.collect();
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let mut response_scores = vec![0.0; response_indices.len()];
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
for row in &matrix {
for (j, &v) in row.iter().enumerate() {
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
if j < response_scores.len() { response_scores[j] += v; }
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
}
}
Ok(MemoryScore {
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
memory_weights, response_scores, matrix, memory_keys,
show scoring progress and per-response memory attribution Status bar shows "scoring 3/7..." during scoring. Debug pane logs per-memory importance and top-5 response breakdowns. F10 context screen shows which memories were important for each assistant response as drilldown children (← memory_key (score)). Added important_memories_for_entry() to look up the matrix by conversation entry index. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:27:43 -04:00
response_entry_indices: response_indices,
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
})
}
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
/// Find the entry index after `start` that contains the Nth assistant response.
/// Returns (end_index, true) if N responses were found, (entries.len(), false) if not.
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
fn nth_response_end(entries: &[ContextEntry], start: usize, n: usize) -> (usize, bool) {
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
let mut count = 0;
for i in start..entries.len() {
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
if entries[i].entry.message().role == Role::Assistant {
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
count += 1;
if count >= n { return (i + 1, true); }
}
}
(entries.len(), false)
}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
// ── Single memory scoring ───────────────────────────────────────
chunk scoring calls to avoid OOM on large contexts Split conversation into ~50K token chunks (configurable via scoring_chunk_tokens in config) for prompt_logprobs calls. Each chunk ends at an assistant message boundary. Avoids the ~40GB logprobs tensor allocation that OOM'd on full contexts. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:35:29 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
/// Score how important a single memory is to the conversation.
///
/// Scores the 50 messages after the memory was surfaced — the window
/// where it could have influenced responses. Returns the sum of
/// divergence, or 0.0 if the memory isn't in the conversation.
pub async fn score_memory(
context: &ContextState,
key: &str,
client: &ApiClient,
) -> anyhow::Result<f64> {
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
const RESPONSE_WINDOW: usize = 50;
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let entries = context.conversation.entries();
let first_pos = match entries.iter().position(|ce| {
matches!(&ce.entry, ConversationEntry::Memory { key: k, .. } if k == key)
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
}) {
Some(p) => p,
None => return Ok(0.0),
};
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
let (end, _) = nth_response_end(entries, first_pos, RESPONSE_WINDOW);
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
let range = first_pos..end;
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
if !entries[range.clone()].iter().any(|ce| ce.entry.message().role == Role::Assistant) {
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
return Ok(0.0);
chunk scoring calls to avoid OOM on large contexts Split conversation into ~50K token chunks (configurable via scoring_chunk_tokens in config) for prompt_logprobs calls. Each chunk ends at an assistant message boundary. Avoids the ~40GB logprobs tensor allocation that OOM'd on full contexts. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:35:29 -04:00
}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let http = http_client();
let (divs, _) = score_divergence(&http, client, context, range, Filter::SkipKey(key)).await?;
chunk scoring calls to avoid OOM on large contexts Split conversation into ~50K token chunks (configurable via scoring_chunk_tokens in config) for prompt_logprobs calls. Each chunk ends at an assistant message boundary. Avoids the ~40GB logprobs tensor allocation that OOM'd on full contexts. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:35:29 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
Ok(divs.iter().sum())
}
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
split out src/mind
2026-04-04 02:46:32 -04:00
// ── Background memory scoring ───────────────────────────────────
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
/// Score memories in the conversation that are due for re-scoring.
split out src/mind
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///
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
/// Checks the graph for each memory's last_scored timestamp. Scores
/// nodes that haven't been scored within `max_age_secs`, oldest first.
/// Updates the graph weight (EWMA) and last_scored after each.
split out src/mind
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///
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
/// Returns the number of nodes scored and their (key, score) pairs.
Incremental memory scoring with per-score persistence score_memories_incremental now takes an async callback that fires after each memory is scored. The callback: - Writes the score to the conversation entry via set_score() - Persists to memory-scores.json immediately - Notifies the UI so the context screen updates live Scoring no longer batches — each score is visible and persisted as it completes. Does not touch the memory store. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 21:10:09 -04:00
pub async fn score_memories_incremental<F, Fut>(
split out src/mind
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context: &ContextState,
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
max_age_secs: i64,
response_window: usize,
split out src/mind
2026-04-04 02:46:32 -04:00
client: &ApiClient,
Kill StatusUpdate, Activity, DmnAnnotation, ContextInfoUpdate, AgentUpdate Status bar reads directly from Agent and MindState on each render tick. Activity is now a field on Agent — set by agent code directly, read by UI via try_lock. DmnAnnotation, ContextInfoUpdate, AgentUpdate were already dead (no senders). UiMessage down to 4 variants: TextDelta, Reasoning, Debug, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:34:27 -04:00
agent: &std::sync::Arc<tokio::sync::Mutex<crate::agent::Agent>>,
Incremental memory scoring with per-score persistence score_memories_incremental now takes an async callback that fires after each memory is scored. The callback: - Writes the score to the conversation entry via set_score() - Persists to memory-scores.json immediately - Notifies the UI so the context screen updates live Scoring no longer batches — each score is visible and persisted as it completes. Does not touch the memory store. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 21:10:09 -04:00
mut on_score: F,
) -> anyhow::Result<usize>
where
F: FnMut(String, f64) -> Fut,
Fut: std::future::Future<Output = ()>,
{
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
let now = chrono::Utc::now().timestamp();
split out src/mind
2026-04-04 02:46:32 -04:00
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
// Collect unique memory keys with their first position
split out src/mind
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let mut seen = std::collections::HashSet::new();
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
let mut candidates: Vec<(usize, String, i64)> = Vec::new(); // (pos, key, last_scored)
split out src/mind
2026-04-04 02:46:32 -04:00
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
let store = crate::hippocampus::store::Store::load().unwrap_or_default();
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
for (i, ce) in context.conversation.entries().iter().enumerate() {
if let ConversationEntry::Memory { key, .. } = &ce.entry {
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
if !seen.insert(key.clone()) { continue; }
let last_scored = store.nodes.get(key.as_str())
.map(|n| n.last_scored)
.unwrap_or(0);
if now - last_scored >= max_age_secs {
candidates.push((i, key.clone(), last_scored));
split out src/mind
2026-04-04 02:46:32 -04:00
}
}
}
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
// Score oldest-first
candidates.sort_by_key(|&(_, _, last)| last);
split out src/mind
2026-04-04 02:46:32 -04:00
let http = http_client();
Incremental memory scoring with per-score persistence score_memories_incremental now takes an async callback that fires after each memory is scored. The callback: - Writes the score to the conversation entry via set_score() - Persists to memory-scores.json immediately - Notifies the UI so the context screen updates live Scoring no longer batches — each score is visible and persisted as it completes. Does not touch the memory store. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 21:10:09 -04:00
let mut scored = 0;
split out src/mind
2026-04-04 02:46:32 -04:00
Score memories in first 60% of conversation by tokens Use cumulative token position instead of entry index for the scoring cutoff. This reflects actual context usage — a few large entries near the end won't skew the boundary. Co-Authored-By: Proof of Concept <poc@bcachefs.org> Signed-off-by: Kent Overstreet <kent.overstreet@linux.dev>
2026-04-07 21:36:39 -04:00
let total_tokens = context.conversation.tokens();
let token_cutoff = total_tokens * 60 / 100;
// Precompute cumulative token position for each entry
let entries = context.conversation.entries();
let mut cumulative: Vec<usize> = Vec::with_capacity(entries.len());
let mut running = 0;
for e in entries {
Replace token counting with token generation via HuggingFace tokenizer Add agent/tokenizer.rs with global Qwen 3.5 tokenizer that generates actual token IDs including chat template wrapping. ContextEntry now stores token_ids: Vec<u32> instead of tokens: usize — the count is derived from the length. ContextEntry::new() tokenizes automatically via the global tokenizer. ContextSection::push_entry() takes a raw ConversationEntry and tokenizes it. set_message() re-tokenizes without needing an external tokenizer parameter. Token IDs include the full chat template: <|im_start|>role\ncontent <|im_end|>\n — so concatenating token_ids across entries produces a ready-to-send prompt for vLLM's /v1/completions endpoint. The old tiktoken CoreBPE is now unused on Agent (will be removed in a followup). Token counts are now exact for Qwen 3.5 instead of the ~85-90% approximation from cl100k_base. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-08 11:20:03 -04:00
running += e.tokens();
Score memories in first 60% of conversation by tokens Use cumulative token position instead of entry index for the scoring cutoff. This reflects actual context usage — a few large entries near the end won't skew the boundary. Co-Authored-By: Proof of Concept <poc@bcachefs.org> Signed-off-by: Kent Overstreet <kent.overstreet@linux.dev>
2026-04-07 21:36:39 -04:00
cumulative.push(running);
}
split out src/mind
2026-04-04 02:46:32 -04:00
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
for (pos, key, _) in &candidates {
Score memories in first 60% of conversation by tokens Use cumulative token position instead of entry index for the scoring cutoff. This reflects actual context usage — a few large entries near the end won't skew the boundary. Co-Authored-By: Proof of Concept <poc@bcachefs.org> Signed-off-by: Kent Overstreet <kent.overstreet@linux.dev>
2026-04-07 21:36:39 -04:00
// Only score memories in the first 70% of the conversation by tokens —
// recent memories don't have enough responses to evaluate yet.
if cumulative.get(*pos).copied().unwrap_or(total_tokens) > token_cutoff {
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
continue;
split out src/mind
2026-04-04 02:46:32 -04:00
}
Score memories in first 60% of conversation by tokens Use cumulative token position instead of entry index for the scoring cutoff. This reflects actual context usage — a few large entries near the end won't skew the boundary. Co-Authored-By: Proof of Concept <poc@bcachefs.org> Signed-off-by: Kent Overstreet <kent.overstreet@linux.dev>
2026-04-07 21:36:39 -04:00
let (end, _) = nth_response_end(context.conversation.entries(), *pos, response_window);
split out src/mind
2026-04-04 02:46:32 -04:00
let range = *pos..end;
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
if !context.conversation.entries()[range.clone()].iter().any(|ce| ce.entry.message().role == Role::Assistant) {
split out src/mind
2026-04-04 02:46:32 -04:00
continue;
}
Kill TextDelta, Info — UiMessage is dead. RAII ActivityGuards replace all status feedback Streaming text now goes directly to agent entries via append_streaming(). sync_from_agent diffs the growing entry each tick. The streaming entry is popped when the response completes; build_response_message pushes the final version. All status feedback uses RAII ActivityGuards: - push_activity() for long-running work (thinking, streaming, scoring) - notify() for instant feedback (compacted, DMN state changes, commands) - Guards auto-remove on Drop, appending "(complete)" and lingering 5s - expire_activities() cleans up timed-out notifications on render tick UiMessage enum reduced to a single Info variant with zero sends. The channel infrastructure remains for now (Mind/Agent still take UiSender in signatures) — mechanical cleanup for a follow-up. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 22:18:07 -04:00
let _scoring = crate::agent::start_activity(agent, format!("scoring: {}", key)).await;
split out src/mind
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match score_divergence(&http, client, context, range, Filter::SkipKey(key)).await {
Ok((divs, _)) => {
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
let n_responses = divs.len();
let max_div = divs.iter().cloned().fold(0.0f64, f64::max);
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:45:55 -04:00
dbglog!(
training: per-node scoring with graph weight updates Memory scoring now uses the graph as source of truth: - last_scored timestamp on each node (new capnp field @22) - Nodes scored when older than scoring_interval_secs (default 1hr) - Oldest-scored-first ordering - Window: scoring_response_window assistant responses (default 100) - First-quarter memories scored even without full window - Per-response normalization (raw divergence / response count) - Asymmetric weight update: alpha=0.5 up, alpha=0.1 down (responds fast to importance, decays slowly — memories stay surfaced even if only useful 1/4 of the time) Graph writes disabled pending normalization calibration. Also: configurable scoring_interval_secs and scoring_response_window. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 05:01:49 -04:00
"[scoring] {} max:{:.3} ({} responses)", key, max_div, n_responses,
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-05 21:45:55 -04:00
);
Incremental memory scoring with per-score persistence score_memories_incremental now takes an async callback that fires after each memory is scored. The callback: - Writes the score to the conversation entry via set_score() - Persists to memory-scores.json immediately - Notifies the UI so the context screen updates live Scoring no longer batches — each score is visible and persisted as it completes. Does not touch the memory store. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
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on_score(key.clone(), max_div).await;
scored += 1;
split out src/mind
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}
Err(e) => {
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
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dbglog!(
split out src/mind
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"[scoring] {} FAILED: {:#}", key, e,
Kill Reasoning, Debug, Activity variants — read status from Agent directly Reasoning tokens: dropped for now, will land in context entries later. Debug sends: converted to dbglog! macro (writes to debug.log). Activity: now a field on Agent, set directly, read by UI via try_lock. score_memories_incremental takes agent Arc for activity writes. UiMessage down to 2 variants: TextDelta, Info. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
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);
split out src/mind
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}
}
}
Incremental memory scoring with per-score persistence score_memories_incremental now takes an async callback that fires after each memory is scored. The callback: - Writes the score to the conversation entry via set_score() - Persists to memory-scores.json immediately - Notifies the UI so the context screen updates live Scoring no longer batches — each score is visible and persisted as it completes. Does not touch the memory store. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 21:10:09 -04:00
Ok(scored)
split out src/mind
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}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
// ── Fine-tuning scoring ─────────────────────────────────────────
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
/// Score which recent responses are candidates for fine-tuning.
///
/// Removes all memories and scores the most recent `count` messages.
/// Responses with high divergence depend on memories the model hasn't
/// internalized — these are fine-tuning candidates.
///
/// Returns (entry_index, divergence) pairs, sorted by divergence descending.
pub async fn score_finetune(
context: &ContextState,
count: usize,
client: &ApiClient,
) -> anyhow::Result<Vec<(usize, f64)>> {
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
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let range = context.conversation.entries().len().saturating_sub(count)..context.conversation.entries().len();
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let response_positions: Vec<usize> = range.clone()
WIP: ContextEntry/ContextSection data structures for incremental token counting New types — not yet wired to callers: - ContextEntry: wraps ConversationEntry with cached token count and timestamp - ContextSection: named group of entries with cached token total. Private entries/tokens, read via entries()/tokens(). Mutation via push(entry), set(index, entry), del(index). - ContextState: system/identity/journal/conversation sections + working_stack - ConversationEntry::System variant for system prompt entries Token counting happens once at push time. Sections maintain their totals incrementally via push/set/del. No more recomputing from scratch on every budget check. Does not compile — callers need updating. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-07 20:15:31 -04:00
.filter(|&i| context.conversation.entries()[i].entry.message().role == Role::Assistant)
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
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.collect();
if response_positions.is_empty() {
return Ok(Vec::new());
scoring: add timeouts, progress feedback, error resilience - 120s timeout on individual /v1/score HTTP calls - Activity bar shows "scoring 3/24: memory-key..." - Info messages at start and completion - Per-memory timing and importance in debug pane - Failed individual memories log error but don't abort (zero row) - Removed duplicate completion message (info from score_memories) Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-03 01:07:47 -04:00
}
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let http = http_client();
let (divs, _) = score_divergence(&http, client, context, range, Filter::SkipAllMemories).await?;
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
training: add memory_score() and finetune_score() Separate the scoring into two distinct functions: - memory_score(key): scores one memory's importance by measuring divergence in the 50 messages after it was surfaced. Two API calls (baseline vs without that memory). - finetune_score(count): scores recent messages with all memories stripped to identify fine-tuning candidates. Responses with high divergence depend on memories the model hasn't internalized yet. The existing score_memories() with the full NxM matrix is preserved for the debug screen. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-04 01:33:31 -04:00
let mut results: Vec<(usize, f64)> = response_positions.iter()
.enumerate()
.map(|(i, &entry_idx)| (entry_idx, divs.get(i).copied().unwrap_or(0.0)))
.collect();
results.sort_by(|a, b| b.1.partial_cmp(&a.1).unwrap_or(std::cmp::Ordering::Equal));
Ok(results)
add memory importance scoring via prompt logprobs score_memories() drops each memory from the context one at a time, runs prompt_logprobs against the full conversation, and builds a divergence matrix: memories × responses. Row sums = memory importance (for graph weight updates) Column sums = response memory-dependence (training candidates) Uses vLLM's prompt_logprobs to check "would the model have said this without this memory?" — one forward pass per memory, all responses scored at once. ~3s per memory on B200. Co-Authored-By: Proof of Concept <poc@bcachefs.org>
2026-04-02 22:13:55 -04:00
}
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