package ocaml-base-compiler
type label = Cmm.label
N.B. Backends vary in their treatment of call gc and checkbound points. If the positioning of any labels associated with these is important for some new feature in the compiler, the relevant backends' behaviour should be checked.
type integer_operation =
| Iadd
| Isub
| Imul
| Imulh
| Idiv
| Imod
| Iand
| Ior
| Ixor
| Ilsl
| Ilsr
| Iasr
| Icomp of integer_comparison
| Icheckbound of {
label_after_error : label option;
spacetime_index : int;
}
(*For Spacetime only,
*)Icheckbound
operations take two arguments, the second being the pointer to the trie node for the current function (and the first being as per non-Spacetime mode).
type float_comparison = Cmm.float_comparison
type test =
| Itruetest
| Ifalsetest
| Iinttest of integer_comparison
| Iinttest_imm of integer_comparison * int
| Ifloattest of float_comparison
| Ioddtest
| Ieventest
type operation =
| Imove
| Ispill
| Ireload
| Iconst_int of nativeint
| Iconst_float of int64
| Iconst_symbol of string
| Icall_ind of {
label_after : label;
}
| Icall_imm of {
func : string;
label_after : label;
}
| Itailcall_ind of {
label_after : label;
}
| Itailcall_imm of {
func : string;
label_after : label;
}
| Iextcall of {
func : string;
alloc : bool;
label_after : label;
}
| Istackoffset of int
| Iload of Cmm.memory_chunk * Arch.addressing_mode
| Istore of Cmm.memory_chunk * Arch.addressing_mode * bool
| Ialloc of {
bytes : int;
label_after_call_gc : label option;
spacetime_index : int;
}
(*For Spacetime only, Ialloc instructions take one argument, being the pointer to the trie node for the current function.
*)| Iintop of integer_operation
| Iintop_imm of integer_operation * int
| Inegf
| Iabsf
| Iaddf
| Isubf
| Imulf
| Idivf
| Ifloatofint
| Iintoffloat
| Ispecific of Arch.specific_operation
| Iname_for_debugger of {
ident : Backend_var.t;
which_parameter : int option;
provenance : unit option;
is_assignment : bool;
}
(*
*)Iname_for_debugger
has the following semantics: (a) The argument register(s) is/are deemed to contain the value of the given identifier. (b) Ifis_assignment
istrue
, any information about otherReg.t
s that have been previously deemed to hold the value of that identifier is forgotten.
type instruction = {
desc : instruction_desc;
next : instruction;
arg : Reg.t array;
res : Reg.t array;
dbg : Debuginfo.t;
mutable live : Reg.Set.t;
mutable available_before : Reg_availability_set.t;
mutable available_across : Reg_availability_set.t option;
}
and instruction_desc =
| Iend
| Iop of operation
| Ireturn
| Iifthenelse of test * instruction * instruction
| Iswitch of int array * instruction array
| Icatch of Cmm.rec_flag * (int * instruction) list * instruction
| Iexit of int
| Itrywith of instruction * instruction
| Iraise of Cmm.raise_kind
type spacetime_shape = (spacetime_part_of_shape * Cmm.label) list
A description of the layout of a Spacetime profiling node associated with a given function. Each call and allocation point instrumented within the function is marked with a label in the code and assigned a place within the node. This information is stored within the executable and extracted when the user saves a profile. The aim is to minimise runtime memory usage within the nodes and increase performance.
type fundecl = {
fun_name : string;
fun_args : Reg.t array;
fun_body : instruction;
fun_codegen_options : Cmm.codegen_option list;
fun_dbg : Debuginfo.t;
fun_spacetime_shape : spacetime_shape option;
}
val dummy_instr : instruction
val end_instr : unit -> instruction
val instr_cons :
instruction_desc ->
Reg.t array ->
Reg.t array ->
instruction ->
instruction
val instr_cons_debug :
instruction_desc ->
Reg.t array ->
Reg.t array ->
Debuginfo.t ->
instruction ->
instruction
val instr_iter : (instruction -> unit) -> instruction -> unit
val spacetime_node_hole_pointer_is_live_before : instruction -> bool
val operation_can_raise : operation -> bool