coq-core.vernac
Vernacstate.Stm
STM-specific state handling
btauto_plugin
cc_plugin
coq-core.clib
coq-core.config
coq-core.engine
coq-core.gramlib
coq-core.interp
coq-core.kernel
coq-core.lib
coq-core.library
coq-core.parsing
coq-core.plugins
coq-core.pretyping
coq-core.printing
coq-core.proofs
coq-core.stm
coq-core.sysinit
coq-core.tactics
coq-core.top_printers
coq-core.toplevel
coq-core.vm
coqide-server.core
coqide-server.protocol
derive_plugin
extraction_plugin
firstorder_plugin
float_syntax_plugin
funind_plugin
ltac2_plugin
ltac_plugin
micromega_plugin
nsatz_plugin
number_string_notation_plugin
ring_plugin
rtauto_plugin
ssreflect_plugin
ssrmatching_plugin
ssrsearch_plugin
tauto_plugin
tuto0_plugin
tuto1_plugin
tuto2_plugin
tuto3_plugin
zify_plugin
type pstate
Proof state + meta/evar counters
val pstate : t -> pstate
val set_pstate : t -> pstate -> t
type non_pstate = Summary.frozen * Lib.frozen
Rest of the state, unfortunately this is used in low-level so we need to expose it
val non_pstate : t -> non_pstate
val same_env : t -> t -> bool
Checks if two states have the same Environ.env (physical eq)
val make_shallow : t -> t
Call Lib.drop_objects on the state
Lib.drop_objects