T. J. McFarland Trade — March 26, 2024 · LAD / OAK

OAKOAK David Forst net −$1.6M net +0.3

received −$1.6M−$1.6M ± $12M expected surplus · −$1.6M realized received 0.0 ± 2 expected · 0.3 realized WAR

Playoff odds: this deal moved OAK's 2024 odds 2% → 2% (+0.2 pts) — how trade timing is graded ↗

receives — most valuable first

T. J. McFarlandP·35y·L/L

−$1.6M−$1.6M± $12M exp surplusrealized −$1.6M 0.0± 2 exp WARrealized 0.3

Prior: league baseline (track record outweighs draft pedigree) → 0.21/yr
Evidence: recent form -0.1/yr over 2.0 seasons
Talent: 0.02/yr blended
Horizon: 1.0 control yr

LADLAD Andrew Friedman net +$1.6M net -0.3

received +$0.0M+$0.0M ± $0M expected surplus · +$0.0M realized received 0.0 ± 0 expected · 0.0 realized WAR

Playoff odds: this deal moved LAD's 2024 odds 84% → 83% (-1.1 pts) — how trade timing is graded ↗

receives — most valuable first

cash / PTBNL

+$0.0M+$0.0M± $0M exp surplusrealized +$0.0M 0.0± 0 exp WARrealized 0.0

Cash or player to be named — no projection

Each player is valued on what he was expected to produce at the time of the trade, versus what he actually produced for his new team.

Expected WAR blends a player's pedigree (Baseball America rank / draft slot, or a baseline) with his recent track record, projected over the years of team control acquired. The ± band is the uncertainty — wide for unproven prospects, tight for established veterans. Surplus values that production at the FA market price of a win (~$8M/WAR) minus salary — so cost-controlled players carry large surplus and expensive ones little, even at the same WAR. Who won is descriptive, not a skill claim: ~99% of a trade's outcome is unforeseeable at the time.

Historically these expected values are unbiased and land within ±2 WAR of reality 75% of the time — yet the side the model favors actually comes out ahead only 53% of the time. The grade is a calibrated bet, not a prediction. Why trades are an efficient market →

OAK⇄LAD