llvm-6502/test/Bindings/OCaml/core.ml
Duncan P. N. Exon Smith b056aa798d DebugInfo: Move new hierarchy into place
Move the specialized metadata nodes for the new debug info hierarchy
into place, finishing off PR22464.  I've done bootstraps (and all that)
and I'm confident this commit is NFC as far as DWARF output is
concerned.  Let me know if I'm wrong :).

The code changes are fairly mechanical:

  - Bumped the "Debug Info Version".
  - `DIBuilder` now creates the appropriate subclass of `MDNode`.
  - Subclasses of DIDescriptor now expect to hold their "MD"
    counterparts (e.g., `DIBasicType` expects `MDBasicType`).
  - Deleted a ton of dead code in `AsmWriter.cpp` and `DebugInfo.cpp`
    for printing comments.
  - Big update to LangRef to describe the nodes in the new hierarchy.
    Feel free to make it better.

Testcase changes are enormous.  There's an accompanying clang commit on
its way.

If you have out-of-tree debug info testcases, I just broke your build.

  - `upgrade-specialized-nodes.sh` is attached to PR22564.  I used it to
    update all the IR testcases.
  - Unfortunately I failed to find way to script the updates to CHECK
    lines, so I updated all of these by hand.  This was fairly painful,
    since the old CHECKs are difficult to reason about.  That's one of
    the benefits of the new hierarchy.

This work isn't quite finished, BTW.  The `DIDescriptor` subclasses are
almost empty wrappers, but not quite: they still have loose casting
checks (see the `RETURN_FROM_RAW()` macro).  Once they're completely
gutted, I'll rename the "MD" classes to "DI" and kill the wrappers.  I
also expect to make a few schema changes now that it's easier to reason
about everything.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@231082 91177308-0d34-0410-b5e6-96231b3b80d8
2015-03-03 17:24:31 +00:00

1517 lines
54 KiB
OCaml

(* RUN: cp %s %T/core.ml
* RUN: %ocamlc -g -warn-error A -package llvm.analysis -package llvm.bitwriter -linkpkg %T/core.ml -o %t
* RUN: %t %t.bc
* RUN: %ocamlopt -g -warn-error A -package llvm.analysis -package llvm.bitwriter -linkpkg %T/core.ml -o %t
* RUN: %t %t.bc
* RUN: llvm-dis < %t.bc > %t.ll
* RUN: FileCheck %s < %t.ll
* Do a second pass for things that shouldn't be anywhere.
* RUN: FileCheck -check-prefix=CHECK-NOWHERE %s < %t.ll
* XFAIL: vg_leak
*)
(* Note: It takes several seconds for ocamlopt to link an executable with
libLLVMCore.a, so it's better to write a big test than a bunch of
little ones. *)
open Llvm
open Llvm_bitwriter
(* Tiny unit test framework - really just to help find which line is busted *)
let exit_status = ref 0
let suite_name = ref ""
let group_name = ref ""
let case_num = ref 0
let print_checkpoints = false
let context = global_context ()
let i1_type = Llvm.i1_type context
let i8_type = Llvm.i8_type context
let i16_type = Llvm.i16_type context
let i32_type = Llvm.i32_type context
let i64_type = Llvm.i64_type context
let void_type = Llvm.void_type context
let float_type = Llvm.float_type context
let double_type = Llvm.double_type context
let fp128_type = Llvm.fp128_type context
let group name =
group_name := !suite_name ^ "/" ^ name;
case_num := 0;
if print_checkpoints then
prerr_endline (" " ^ name ^ "...")
let insist cond =
incr case_num;
if not cond then
exit_status := 10;
match print_checkpoints, cond with
| false, true -> ()
| false, false ->
prerr_endline ("FAILED: " ^ !suite_name ^ "/" ^ !group_name ^ " #" ^ (string_of_int !case_num))
| true, true ->
prerr_endline (" " ^ (string_of_int !case_num))
| true, false ->
prerr_endline (" " ^ (string_of_int !case_num) ^ " FAIL")
let suite name f =
suite_name := name;
if print_checkpoints then
prerr_endline (name ^ ":");
f ()
(*===-- Fixture -----------------------------------------------------------===*)
let filename = Sys.argv.(1)
let m = create_module context filename
(*===-- Conversion --------------------------------------------------------===*)
let test_conversion () =
insist ("i32" = (string_of_lltype i32_type));
let c = const_int i32_type 42 in
insist ("i32 42" = (string_of_llvalue c))
(*===-- Target ------------------------------------------------------------===*)
let test_target () =
begin group "triple";
let trip = "i686-apple-darwin8" in
set_target_triple trip m;
insist (trip = target_triple m)
end;
begin group "layout";
let layout = "e" in
set_data_layout layout m;
insist (layout = data_layout m)
end
(* CHECK: target datalayout = "e"
* CHECK: target triple = "i686-apple-darwin8"
*)
(*===-- Constants ---------------------------------------------------------===*)
let test_constants () =
(* CHECK: const_int{{.*}}i32{{.*}}-1
*)
group "int";
let c = const_int i32_type (-1) in
ignore (define_global "const_int" c m);
insist (i32_type = type_of c);
insist (is_constant c);
insist (Some (-1L) = int64_of_const c);
(* CHECK: const_sext_int{{.*}}i64{{.*}}-1
*)
group "sext int";
let c = const_int i64_type (-1) in
ignore (define_global "const_sext_int" c m);
insist (i64_type = type_of c);
insist (Some (-1L) = int64_of_const c);
(* CHECK: const_zext_int64{{.*}}i64{{.*}}4294967295
*)
group "zext int64";
let c = const_of_int64 i64_type (Int64.of_string "4294967295") false in
ignore (define_global "const_zext_int64" c m);
insist (i64_type = type_of c);
insist (Some 4294967295L = int64_of_const c);
(* CHECK: const_int_string{{.*}}i32{{.*}}-1
*)
group "int string";
let c = const_int_of_string i32_type "-1" 10 in
ignore (define_global "const_int_string" c m);
insist (i32_type = type_of c);
insist (None = (string_of_const c));
insist (None = float_of_const c);
insist (Some (-1L) = int64_of_const c);
(* CHECK: const_int64{{.*}}i64{{.*}}9223372036854775807
*)
group "max int64";
let c = const_of_int64 i64_type 9223372036854775807L true in
ignore (define_global "const_int64" c m) ;
insist (i64_type = type_of c);
insist (Some 9223372036854775807L = int64_of_const c);
if Sys.word_size = 64; then begin
group "long int";
let c = const_int i64_type (1 lsl 61) in
insist (c = const_of_int64 i64_type (Int64.of_int (1 lsl 61)) false)
end;
(* CHECK: @const_string = global {{.*}}c"cruel\00world"
*)
group "string";
let c = const_string context "cruel\000world" in
ignore (define_global "const_string" c m);
insist ((array_type i8_type 11) = type_of c);
insist ((Some "cruel\000world") = (string_of_const c));
(* CHECK: const_stringz{{.*}}"hi\00again\00"
*)
group "stringz";
let c = const_stringz context "hi\000again" in
ignore (define_global "const_stringz" c m);
insist ((array_type i8_type 9) = type_of c);
(* CHECK: const_single{{.*}}2.75
* CHECK: const_double{{.*}}3.1459
* CHECK: const_double_string{{.*}}2
* CHECK: const_fake_fp128{{.*}}0xL00000000000000004000000000000000
* CHECK: const_fp128_string{{.*}}0xLF3CB1CCF26FBC178452FB4EC7F91973F
*)
begin group "real";
let cs = const_float float_type 2.75 in
ignore (define_global "const_single" cs m);
insist (float_type = type_of cs);
insist (float_of_const cs = Some 2.75);
let cd = const_float double_type 3.1459 in
ignore (define_global "const_double" cd m);
insist (double_type = type_of cd);
insist (float_of_const cd = Some 3.1459);
let cd = const_float_of_string double_type "2" in
ignore (define_global "const_double_string" cd m);
insist (double_type = type_of cd);
insist (float_of_const cd = Some 2.);
let cd = const_float fp128_type 2. in
ignore (define_global "const_fake_fp128" cd m);
insist (fp128_type = type_of cd);
insist (float_of_const cd = Some 2.);
let cd = const_float_of_string fp128_type "1e400" in
ignore (define_global "const_fp128_string" cd m);
insist (fp128_type = type_of cd);
insist (float_of_const cd = None);
end;
let one = const_int i16_type 1 in
let two = const_int i16_type 2 in
let three = const_int i32_type 3 in
let four = const_int i32_type 4 in
(* CHECK: const_array{{.*}}[i32 3, i32 4]
*)
group "array";
let c = const_array i32_type [| three; four |] in
ignore (define_global "const_array" c m);
insist ((array_type i32_type 2) = (type_of c));
insist (three = (const_element c 0));
insist (four = (const_element c 1));
(* CHECK: const_vector{{.*}}<i16 1, i16 2{{.*}}>
*)
group "vector";
let c = const_vector [| one; two; one; two;
one; two; one; two |] in
ignore (define_global "const_vector" c m);
insist ((vector_type i16_type 8) = (type_of c));
(* CHECK: const_structure{{.*.}}i16 1, i16 2, i32 3, i32 4
*)
group "structure";
let c = const_struct context [| one; two; three; four |] in
ignore (define_global "const_structure" c m);
insist ((struct_type context [| i16_type; i16_type; i32_type; i32_type |])
= (type_of c));
(* CHECK: const_null{{.*}}zeroinit
*)
group "null";
let c = const_null (packed_struct_type context [| i1_type; i8_type; i64_type;
double_type |]) in
ignore (define_global "const_null" c m);
(* CHECK: const_all_ones{{.*}}-1
*)
group "all ones";
let c = const_all_ones i64_type in
ignore (define_global "const_all_ones" c m);
group "pointer null"; begin
(* CHECK: const_pointer_null = global i64* null
*)
let c = const_pointer_null (pointer_type i64_type) in
ignore (define_global "const_pointer_null" c m);
end;
(* CHECK: const_undef{{.*}}undef
*)
group "undef";
let c = undef i1_type in
ignore (define_global "const_undef" c m);
insist (i1_type = type_of c);
insist (is_undef c);
group "constant arithmetic";
(* CHECK: @const_neg = global i64 sub
* CHECK: @const_nsw_neg = global i64 sub nsw
* CHECK: @const_nuw_neg = global i64 sub nuw
* CHECK: @const_fneg = global double fsub
* CHECK: @const_not = global i64 xor
* CHECK: @const_add = global i64 add
* CHECK: @const_nsw_add = global i64 add nsw
* CHECK: @const_nuw_add = global i64 add nuw
* CHECK: @const_fadd = global double fadd
* CHECK: @const_sub = global i64 sub
* CHECK: @const_nsw_sub = global i64 sub nsw
* CHECK: @const_nuw_sub = global i64 sub nuw
* CHECK: @const_fsub = global double fsub
* CHECK: @const_mul = global i64 mul
* CHECK: @const_nsw_mul = global i64 mul nsw
* CHECK: @const_nuw_mul = global i64 mul nuw
* CHECK: @const_fmul = global double fmul
* CHECK: @const_udiv = global i64 udiv
* CHECK: @const_sdiv = global i64 sdiv
* CHECK: @const_exact_sdiv = global i64 sdiv exact
* CHECK: @const_fdiv = global double fdiv
* CHECK: @const_urem = global i64 urem
* CHECK: @const_srem = global i64 srem
* CHECK: @const_frem = global double frem
* CHECK: @const_and = global i64 and
* CHECK: @const_or = global i64 or
* CHECK: @const_xor = global i64 xor
* CHECK: @const_icmp = global i1 icmp sle
* CHECK: @const_fcmp = global i1 fcmp ole
*)
let void_ptr = pointer_type i8_type in
let five = const_int i64_type 5 in
let ffive = const_uitofp five double_type in
let foldbomb_gv = define_global "FoldBomb" (const_null i8_type) m in
let foldbomb = const_ptrtoint foldbomb_gv i64_type in
let ffoldbomb = const_uitofp foldbomb double_type in
ignore (define_global "const_neg" (const_neg foldbomb) m);
ignore (define_global "const_nsw_neg" (const_nsw_neg foldbomb) m);
ignore (define_global "const_nuw_neg" (const_nuw_neg foldbomb) m);
ignore (define_global "const_fneg" (const_fneg ffoldbomb) m);
ignore (define_global "const_not" (const_not foldbomb) m);
ignore (define_global "const_add" (const_add foldbomb five) m);
ignore (define_global "const_nsw_add" (const_nsw_add foldbomb five) m);
ignore (define_global "const_nuw_add" (const_nuw_add foldbomb five) m);
ignore (define_global "const_fadd" (const_fadd ffoldbomb ffive) m);
ignore (define_global "const_sub" (const_sub foldbomb five) m);
ignore (define_global "const_nsw_sub" (const_nsw_sub foldbomb five) m);
ignore (define_global "const_nuw_sub" (const_nuw_sub foldbomb five) m);
ignore (define_global "const_fsub" (const_fsub ffoldbomb ffive) m);
ignore (define_global "const_mul" (const_mul foldbomb five) m);
ignore (define_global "const_nsw_mul" (const_nsw_mul foldbomb five) m);
ignore (define_global "const_nuw_mul" (const_nuw_mul foldbomb five) m);
ignore (define_global "const_fmul" (const_fmul ffoldbomb ffive) m);
ignore (define_global "const_udiv" (const_udiv foldbomb five) m);
ignore (define_global "const_sdiv" (const_sdiv foldbomb five) m);
ignore (define_global "const_exact_sdiv" (const_exact_sdiv foldbomb five) m);
ignore (define_global "const_fdiv" (const_fdiv ffoldbomb ffive) m);
ignore (define_global "const_urem" (const_urem foldbomb five) m);
ignore (define_global "const_srem" (const_srem foldbomb five) m);
ignore (define_global "const_frem" (const_frem ffoldbomb ffive) m);
ignore (define_global "const_and" (const_and foldbomb five) m);
ignore (define_global "const_or" (const_or foldbomb five) m);
ignore (define_global "const_xor" (const_xor foldbomb five) m);
ignore (define_global "const_icmp" (const_icmp Icmp.Sle foldbomb five) m);
ignore (define_global "const_fcmp" (const_fcmp Fcmp.Ole ffoldbomb ffive) m);
group "constant casts";
(* CHECK: const_trunc{{.*}}trunc
* CHECK: const_sext{{.*}}sext
* CHECK: const_zext{{.*}}zext
* CHECK: const_fptrunc{{.*}}fptrunc
* CHECK: const_fpext{{.*}}fpext
* CHECK: const_uitofp{{.*}}uitofp
* CHECK: const_sitofp{{.*}}sitofp
* CHECK: const_fptoui{{.*}}fptoui
* CHECK: const_fptosi{{.*}}fptosi
* CHECK: const_ptrtoint{{.*}}ptrtoint
* CHECK: const_inttoptr{{.*}}inttoptr
* CHECK: const_bitcast{{.*}}bitcast
* CHECK: const_intcast{{.*}}zext
*)
let i128_type = integer_type context 128 in
ignore (define_global "const_trunc" (const_trunc (const_add foldbomb five)
i8_type) m);
ignore (define_global "const_sext" (const_sext foldbomb i128_type) m);
ignore (define_global "const_zext" (const_zext foldbomb i128_type) m);
ignore (define_global "const_fptrunc" (const_fptrunc ffoldbomb float_type) m);
ignore (define_global "const_fpext" (const_fpext ffoldbomb fp128_type) m);
ignore (define_global "const_uitofp" (const_uitofp foldbomb double_type) m);
ignore (define_global "const_sitofp" (const_sitofp foldbomb double_type) m);
ignore (define_global "const_fptoui" (const_fptoui ffoldbomb i32_type) m);
ignore (define_global "const_fptosi" (const_fptosi ffoldbomb i32_type) m);
ignore (define_global "const_ptrtoint" (const_ptrtoint
(const_gep (const_null (pointer_type i8_type))
[| const_int i32_type 1 |])
i32_type) m);
ignore (define_global "const_inttoptr" (const_inttoptr (const_add foldbomb five)
void_ptr) m);
ignore (define_global "const_bitcast" (const_bitcast ffoldbomb i64_type) m);
ignore (define_global "const_intcast"
(const_intcast foldbomb i128_type ~is_signed:false) m);
group "misc constants";
(* CHECK: const_size_of{{.*}}getelementptr{{.*}}null
* CHECK: const_gep{{.*}}getelementptr
* CHECK: const_select{{.*}}select
* CHECK: const_extractelement{{.*}}extractelement
* CHECK: const_insertelement{{.*}}insertelement
* CHECK: const_shufflevector = global <4 x i32> <i32 0, i32 1, i32 1, i32 0>
*)
ignore (define_global "const_size_of" (size_of (pointer_type i8_type)) m);
ignore (define_global "const_gep" (const_gep foldbomb_gv [| five |]) m);
ignore (define_global "const_select" (const_select
(const_icmp Icmp.Sle foldbomb five)
(const_int i8_type (-1))
(const_int i8_type 0)) m);
let zero = const_int i32_type 0 in
let one = const_int i32_type 1 in
ignore (define_global "const_extractelement" (const_extractelement
(const_vector [| zero; one; zero; one |])
(const_trunc foldbomb i32_type)) m);
ignore (define_global "const_insertelement" (const_insertelement
(const_vector [| zero; one; zero; one |])
zero (const_trunc foldbomb i32_type)) m);
ignore (define_global "const_shufflevector" (const_shufflevector
(const_vector [| zero; one |])
(const_vector [| one; zero |])
(const_vector [| const_int i32_type 0; const_int i32_type 1;
const_int i32_type 2; const_int i32_type 3 |])) m);
group "asm"; begin
let ft = function_type void_type [| i32_type; i32_type; i32_type |] in
ignore (const_inline_asm
ft
""
"{cx},{ax},{di},~{dirflag},~{fpsr},~{flags},~{edi},~{ecx}"
true
false)
end;
group "recursive struct"; begin
let nsty = named_struct_type context "rec" in
let pty = pointer_type nsty in
struct_set_body nsty [| i32_type; pty |] false;
let elts = [| const_int i32_type 4; const_pointer_null pty |] in
let grec_init = const_named_struct nsty elts in
ignore (define_global "grec" grec_init m);
ignore (string_of_lltype nsty);
end
(*===-- Global Values -----------------------------------------------------===*)
let test_global_values () =
let (++) x f = f x; x in
let zero32 = const_null i32_type in
(* CHECK: GVal01
*)
group "naming";
let g = define_global "TEMPORARY" zero32 m in
insist ("TEMPORARY" = value_name g);
set_value_name "GVal01" g;
insist ("GVal01" = value_name g);
(* CHECK: GVal02{{.*}}linkonce
*)
group "linkage";
let g = define_global "GVal02" zero32 m ++
set_linkage Linkage.Link_once in
insist (Linkage.Link_once = linkage g);
(* CHECK: GVal03{{.*}}Hanalei
*)
group "section";
let g = define_global "GVal03" zero32 m ++
set_section "Hanalei" in
insist ("Hanalei" = section g);
(* CHECK: GVal04{{.*}}hidden
*)
group "visibility";
let g = define_global "GVal04" zero32 m ++
set_visibility Visibility.Hidden in
insist (Visibility.Hidden = visibility g);
(* CHECK: GVal05{{.*}}align 128
*)
group "alignment";
let g = define_global "GVal05" zero32 m ++
set_alignment 128 in
insist (128 = alignment g);
(* CHECK: GVal06{{.*}}dllexport
*)
group "dll_storage_class";
let g = define_global "GVal06" zero32 m ++
set_dll_storage_class DLLStorageClass.DLLExport in
insist (DLLStorageClass.DLLExport = dll_storage_class g)
(*===-- Global Variables --------------------------------------------------===*)
let test_global_variables () =
let (++) x f = f x; x in
let forty_two32 = const_int i32_type 42 in
group "declarations"; begin
(* CHECK: @GVar01 = external global i32
* CHECK: @QGVar01 = external addrspace(3) global i32
*)
insist (None == lookup_global "GVar01" m);
let g = declare_global i32_type "GVar01" m in
insist (is_declaration g);
insist (pointer_type float_type ==
type_of (declare_global float_type "GVar01" m));
insist (g == declare_global i32_type "GVar01" m);
insist (match lookup_global "GVar01" m with Some x -> x = g
| None -> false);
insist (None == lookup_global "QGVar01" m);
let g = declare_qualified_global i32_type "QGVar01" 3 m in
insist (is_declaration g);
insist (qualified_pointer_type float_type 3 ==
type_of (declare_qualified_global float_type "QGVar01" 3 m));
insist (g == declare_qualified_global i32_type "QGVar01" 3 m);
insist (match lookup_global "QGVar01" m with Some x -> x = g
| None -> false);
end;
group "definitions"; begin
(* CHECK: @GVar02 = global i32 42
* CHECK: @GVar03 = global i32 42
* CHECK: @QGVar02 = addrspace(3) global i32 42
* CHECK: @QGVar03 = addrspace(3) global i32 42
*)
let g = define_global "GVar02" forty_two32 m in
let g2 = declare_global i32_type "GVar03" m ++
set_initializer forty_two32 in
insist (not (is_declaration g));
insist (not (is_declaration g2));
insist ((global_initializer g) == (global_initializer g2));
let g = define_qualified_global "QGVar02" forty_two32 3 m in
let g2 = declare_qualified_global i32_type "QGVar03" 3 m ++
set_initializer forty_two32 in
insist (not (is_declaration g));
insist (not (is_declaration g2));
insist ((global_initializer g) == (global_initializer g2));
end;
(* CHECK: GVar04{{.*}}thread_local
*)
group "threadlocal";
let g = define_global "GVar04" forty_two32 m ++
set_thread_local true in
insist (is_thread_local g);
(* CHECK: GVar05{{.*}}thread_local(initialexec)
*)
group "threadlocal_mode";
let g = define_global "GVar05" forty_two32 m ++
set_thread_local_mode ThreadLocalMode.InitialExec in
insist ((thread_local_mode g) = ThreadLocalMode.InitialExec);
(* CHECK: GVar06{{.*}}externally_initialized
*)
group "externally_initialized";
let g = define_global "GVar06" forty_two32 m ++
set_externally_initialized true in
insist (is_externally_initialized g);
(* CHECK-NOWHERE-NOT: GVar07
*)
group "delete";
let g = define_global "GVar07" forty_two32 m in
delete_global g;
(* CHECK: ConstGlobalVar{{.*}}constant
*)
group "constant";
let g = define_global "ConstGlobalVar" forty_two32 m in
insist (not (is_global_constant g));
set_global_constant true g;
insist (is_global_constant g);
begin group "iteration";
let m = create_module context "temp" in
insist (At_end m = global_begin m);
insist (At_start m = global_end m);
let g1 = declare_global i32_type "One" m in
let g2 = declare_global i32_type "Two" m in
insist (Before g1 = global_begin m);
insist (Before g2 = global_succ g1);
insist (At_end m = global_succ g2);
insist (After g2 = global_end m);
insist (After g1 = global_pred g2);
insist (At_start m = global_pred g1);
let lf s x = s ^ "->" ^ value_name x in
insist ("->One->Two" = fold_left_globals lf "" m);
let rf x s = value_name x ^ "<-" ^ s in
insist ("One<-Two<-" = fold_right_globals rf m "");
dispose_module m
end
(* String globals built below are emitted here.
* CHECK: build_global_string{{.*}}stringval
*)
(*===-- Uses --------------------------------------------------------------===*)
let test_uses () =
let ty = function_type i32_type [| i32_type; i32_type |] in
let fn = define_function "use_function" ty m in
let b = builder_at_end context (entry_block fn) in
let p1 = param fn 0 in
let p2 = param fn 1 in
let v1 = build_add p1 p2 "v1" b in
let v2 = build_add p1 v1 "v2" b in
let _ = build_add v1 v2 "v3" b in
let lf s u = value_name (user u) ^ "->" ^ s in
insist ("v2->v3->" = fold_left_uses lf "" v1);
let rf u s = value_name (user u) ^ "<-" ^ s in
insist ("v3<-v2<-" = fold_right_uses rf v1 "");
let lf s u = value_name (used_value u) ^ "->" ^ s in
insist ("v1->v1->" = fold_left_uses lf "" v1);
let rf u s = value_name (used_value u) ^ "<-" ^ s in
insist ("v1<-v1<-" = fold_right_uses rf v1 "");
ignore (build_unreachable b)
(*===-- Users -------------------------------------------------------------===*)
let test_users () =
let ty = function_type i32_type [| i32_type; i32_type |] in
let fn = define_function "user_function" ty m in
let b = builder_at_end context (entry_block fn) in
let p1 = param fn 0 in
let p2 = param fn 1 in
let a3 = build_alloca i32_type "user_alloca" b in
let p3 = build_load a3 "user_load" b in
let i = build_add p1 p2 "sum" b in
insist ((num_operands i) = 2);
insist ((operand i 0) = p1);
insist ((operand i 1) = p2);
set_operand i 1 p3;
insist ((operand i 1) != p2);
insist ((operand i 1) = p3);
ignore (build_unreachable b)
(*===-- Aliases -----------------------------------------------------------===*)
let test_aliases () =
(* CHECK: @alias = alias i32* @aliasee
*)
let forty_two32 = const_int i32_type 42 in
let v = define_global "aliasee" forty_two32 m in
ignore (add_alias m (pointer_type i32_type) v "alias")
(*===-- Functions ---------------------------------------------------------===*)
let test_functions () =
let ty = function_type i32_type [| i32_type; i64_type |] in
let ty2 = function_type i8_type [| i8_type; i64_type |] in
(* CHECK: declare i32 @Fn1(i32, i64)
*)
begin group "declare";
insist (None = lookup_function "Fn1" m);
let fn = declare_function "Fn1" ty m in
insist (pointer_type ty = type_of fn);
insist (is_declaration fn);
insist (0 = Array.length (basic_blocks fn));
insist (pointer_type ty2 == type_of (declare_function "Fn1" ty2 m));
insist (fn == declare_function "Fn1" ty m);
insist (None <> lookup_function "Fn1" m);
insist (match lookup_function "Fn1" m with Some x -> x = fn
| None -> false);
insist (m == global_parent fn)
end;
(* CHECK-NOWHERE-NOT: Fn2
*)
group "delete";
let fn = declare_function "Fn2" ty m in
delete_function fn;
(* CHECK: define{{.*}}Fn3
*)
group "define";
let fn = define_function "Fn3" ty m in
insist (not (is_declaration fn));
insist (1 = Array.length (basic_blocks fn));
ignore (build_unreachable (builder_at_end context (entry_block fn)));
(* CHECK: define{{.*}}Fn4{{.*}}Param1{{.*}}Param2
*)
group "params";
let fn = define_function "Fn4" ty m in
let params = params fn in
insist (2 = Array.length params);
insist (params.(0) = param fn 0);
insist (params.(1) = param fn 1);
insist (i32_type = type_of params.(0));
insist (i64_type = type_of params.(1));
set_value_name "Param1" params.(0);
set_value_name "Param2" params.(1);
ignore (build_unreachable (builder_at_end context (entry_block fn)));
(* CHECK: fastcc{{.*}}Fn5
*)
group "callconv";
let fn = define_function "Fn5" ty m in
insist (CallConv.c = function_call_conv fn);
set_function_call_conv CallConv.fast fn;
insist (CallConv.fast = function_call_conv fn);
ignore (build_unreachable (builder_at_end context (entry_block fn)));
begin group "gc";
(* CHECK: Fn6{{.*}}gc{{.*}}shadowstack
*)
let fn = define_function "Fn6" ty m in
insist (None = gc fn);
set_gc (Some "ocaml") fn;
insist (Some "ocaml" = gc fn);
set_gc None fn;
insist (None = gc fn);
set_gc (Some "shadowstack") fn;
ignore (build_unreachable (builder_at_end context (entry_block fn)));
end;
begin group "iteration";
let m = create_module context "temp" in
insist (At_end m = function_begin m);
insist (At_start m = function_end m);
let f1 = define_function "One" ty m in
let f2 = define_function "Two" ty m in
insist (Before f1 = function_begin m);
insist (Before f2 = function_succ f1);
insist (At_end m = function_succ f2);
insist (After f2 = function_end m);
insist (After f1 = function_pred f2);
insist (At_start m = function_pred f1);
let lf s x = s ^ "->" ^ value_name x in
insist ("->One->Two" = fold_left_functions lf "" m);
let rf x s = value_name x ^ "<-" ^ s in
insist ("One<-Two<-" = fold_right_functions rf m "");
dispose_module m
end
(*===-- Params ------------------------------------------------------------===*)
let test_params () =
begin group "iteration";
let m = create_module context "temp" in
let vf = define_function "void" (function_type void_type [| |]) m in
insist (At_end vf = param_begin vf);
insist (At_start vf = param_end vf);
let ty = function_type void_type [| i32_type; i32_type |] in
let f = define_function "f" ty m in
let p1 = param f 0 in
let p2 = param f 1 in
set_value_name "One" p1;
set_value_name "Two" p2;
add_param_attr p1 Attribute.Sext;
add_param_attr p2 Attribute.Noalias;
remove_param_attr p2 Attribute.Noalias;
add_function_attr f Attribute.Nounwind;
add_function_attr f Attribute.Noreturn;
remove_function_attr f Attribute.Noreturn;
insist (Before p1 = param_begin f);
insist (Before p2 = param_succ p1);
insist (At_end f = param_succ p2);
insist (After p2 = param_end f);
insist (After p1 = param_pred p2);
insist (At_start f = param_pred p1);
let lf s x = s ^ "->" ^ value_name x in
insist ("->One->Two" = fold_left_params lf "" f);
let rf x s = value_name x ^ "<-" ^ s in
insist ("One<-Two<-" = fold_right_params rf f "");
dispose_module m
end
(*===-- Basic Blocks ------------------------------------------------------===*)
let test_basic_blocks () =
let ty = function_type void_type [| |] in
(* CHECK: Bb1
*)
group "entry";
let fn = declare_function "X" ty m in
let bb = append_block context "Bb1" fn in
insist (bb = entry_block fn);
ignore (build_unreachable (builder_at_end context bb));
(* CHECK-NOWHERE-NOT: Bb2
*)
group "delete";
let fn = declare_function "X2" ty m in
let bb = append_block context "Bb2" fn in
delete_block bb;
group "insert";
let fn = declare_function "X3" ty m in
let bbb = append_block context "b" fn in
let bba = insert_block context "a" bbb in
insist ([| bba; bbb |] = basic_blocks fn);
ignore (build_unreachable (builder_at_end context bba));
ignore (build_unreachable (builder_at_end context bbb));
(* CHECK: Bb3
*)
group "name/value";
let fn = define_function "X4" ty m in
let bb = entry_block fn in
ignore (build_unreachable (builder_at_end context bb));
let bbv = value_of_block bb in
set_value_name "Bb3" bbv;
insist ("Bb3" = value_name bbv);
group "casts";
let fn = define_function "X5" ty m in
let bb = entry_block fn in
ignore (build_unreachable (builder_at_end context bb));
insist (bb = block_of_value (value_of_block bb));
insist (value_is_block (value_of_block bb));
insist (not (value_is_block (const_null i32_type)));
begin group "iteration";
let m = create_module context "temp" in
let f = declare_function "Temp" (function_type i32_type [| |]) m in
insist (At_end f = block_begin f);
insist (At_start f = block_end f);
let b1 = append_block context "One" f in
let b2 = append_block context "Two" f in
insist (Before b1 = block_begin f);
insist (Before b2 = block_succ b1);
insist (At_end f = block_succ b2);
insist (After b2 = block_end f);
insist (After b1 = block_pred b2);
insist (At_start f = block_pred b1);
let lf s x = s ^ "->" ^ value_name (value_of_block x) in
insist ("->One->Two" = fold_left_blocks lf "" f);
let rf x s = value_name (value_of_block x) ^ "<-" ^ s in
insist ("One<-Two<-" = fold_right_blocks rf f "");
dispose_module m
end
(*===-- Instructions ------------------------------------------------------===*)
let test_instructions () =
begin group "iteration";
let m = create_module context "temp" in
let fty = function_type void_type [| i32_type; i32_type |] in
let f = define_function "f" fty m in
let bb = entry_block f in
let b = builder_at context (At_end bb) in
insist (At_end bb = instr_begin bb);
insist (At_start bb = instr_end bb);
let i1 = build_add (param f 0) (param f 1) "One" b in
let i2 = build_sub (param f 0) (param f 1) "Two" b in
insist (Before i1 = instr_begin bb);
insist (Before i2 = instr_succ i1);
insist (At_end bb = instr_succ i2);
insist (After i2 = instr_end bb);
insist (After i1 = instr_pred i2);
insist (At_start bb = instr_pred i1);
let lf s x = s ^ "->" ^ value_name x in
insist ("->One->Two" = fold_left_instrs lf "" bb);
let rf x s = value_name x ^ "<-" ^ s in
insist ("One<-Two<-" = fold_right_instrs rf bb "");
dispose_module m
end;
group "clone instr";
begin
(* CHECK: %clone = add i32 %0, 2
*)
let fty = function_type void_type [| i32_type |] in
let fn = define_function "BuilderParent" fty m in
let bb = entry_block fn in
let b = builder_at_end context bb in
let p = param fn 0 in
let sum = build_add p p "sum" b in
let y = const_int i32_type 2 in
let clone = instr_clone sum in
set_operand clone 0 p;
set_operand clone 1 y;
insert_into_builder clone "clone" b;
ignore (build_ret_void b)
end
(*===-- Builder -----------------------------------------------------------===*)
let test_builder () =
let (++) x f = f x; x in
begin group "parent";
insist (try
ignore (insertion_block (builder context));
false
with Not_found ->
true);
let fty = function_type void_type [| i32_type |] in
let fn = define_function "BuilderParent" fty m in
let bb = entry_block fn in
let b = builder_at_end context bb in
let p = param fn 0 in
let sum = build_add p p "sum" b in
ignore (build_ret_void b);
insist (fn = block_parent bb);
insist (fn = param_parent p);
insist (bb = instr_parent sum);
insist (bb = insertion_block b)
end;
group "ret void";
begin
(* CHECK: ret void
*)
let fty = function_type void_type [| |] in
let fn = declare_function "X6" fty m in
let b = builder_at_end context (append_block context "Bb01" fn) in
ignore (build_ret_void b)
end;
group "ret aggregate";
begin
(* CHECK: ret { i8, i64 } { i8 4, i64 5 }
*)
let sty = struct_type context [| i8_type; i64_type |] in
let fty = function_type sty [| |] in
let fn = declare_function "XA6" fty m in
let b = builder_at_end context (append_block context "Bb01" fn) in
let agg = [| const_int i8_type 4; const_int i64_type 5 |] in
ignore (build_aggregate_ret agg b)
end;
(* The rest of the tests will use one big function. *)
let fty = function_type i32_type [| i32_type; i32_type |] in
let fn = define_function "X7" fty m in
let atentry = builder_at_end context (entry_block fn) in
let p1 = param fn 0 ++ set_value_name "P1" in
let p2 = param fn 1 ++ set_value_name "P2" in
let f1 = build_uitofp p1 float_type "F1" atentry in
let f2 = build_uitofp p2 float_type "F2" atentry in
let bb00 = append_block context "Bb00" fn in
ignore (build_unreachable (builder_at_end context bb00));
group "function attribute";
begin
ignore (add_function_attr fn Attribute.UWTable);
(* CHECK: X7{{.*}}#0
* #0 is uwtable, defined at EOF.
*)
insist ([Attribute.UWTable] = function_attr fn);
end;
group "casts"; begin
let void_ptr = pointer_type i8_type in
(* CHECK-DAG: %build_trunc = trunc i32 %P1 to i8
* CHECK-DAG: %build_trunc2 = trunc i32 %P1 to i8
* CHECK-DAG: %build_trunc3 = trunc i32 %P1 to i8
* CHECK-DAG: %build_zext = zext i8 %build_trunc to i32
* CHECK-DAG: %build_zext2 = zext i8 %build_trunc to i32
* CHECK-DAG: %build_sext = sext i32 %build_zext to i64
* CHECK-DAG: %build_sext2 = sext i32 %build_zext to i64
* CHECK-DAG: %build_sext3 = sext i32 %build_zext to i64
* CHECK-DAG: %build_uitofp = uitofp i64 %build_sext to float
* CHECK-DAG: %build_sitofp = sitofp i32 %build_zext to double
* CHECK-DAG: %build_fptoui = fptoui float %build_uitofp to i32
* CHECK-DAG: %build_fptosi = fptosi double %build_sitofp to i64
* CHECK-DAG: %build_fptrunc = fptrunc double %build_sitofp to float
* CHECK-DAG: %build_fptrunc2 = fptrunc double %build_sitofp to float
* CHECK-DAG: %build_fpext = fpext float %build_fptrunc to double
* CHECK-DAG: %build_fpext2 = fpext float %build_fptrunc to double
* CHECK-DAG: %build_inttoptr = inttoptr i32 %P1 to i8*
* CHECK-DAG: %build_ptrtoint = ptrtoint i8* %build_inttoptr to i64
* CHECK-DAG: %build_ptrtoint2 = ptrtoint i8* %build_inttoptr to i64
* CHECK-DAG: %build_bitcast = bitcast i64 %build_ptrtoint to double
* CHECK-DAG: %build_bitcast2 = bitcast i64 %build_ptrtoint to double
* CHECK-DAG: %build_bitcast3 = bitcast i64 %build_ptrtoint to double
* CHECK-DAG: %build_bitcast4 = bitcast i64 %build_ptrtoint to double
* CHECK-DAG: %build_pointercast = bitcast i8* %build_inttoptr to i16*
*)
let inst28 = build_trunc p1 i8_type "build_trunc" atentry in
let inst29 = build_zext inst28 i32_type "build_zext" atentry in
let inst30 = build_sext inst29 i64_type "build_sext" atentry in
let inst31 = build_uitofp inst30 float_type "build_uitofp" atentry in
let inst32 = build_sitofp inst29 double_type "build_sitofp" atentry in
ignore(build_fptoui inst31 i32_type "build_fptoui" atentry);
ignore(build_fptosi inst32 i64_type "build_fptosi" atentry);
let inst35 = build_fptrunc inst32 float_type "build_fptrunc" atentry in
ignore(build_fpext inst35 double_type "build_fpext" atentry);
let inst37 = build_inttoptr p1 void_ptr "build_inttoptr" atentry in
let inst38 = build_ptrtoint inst37 i64_type "build_ptrtoint" atentry in
ignore(build_bitcast inst38 double_type "build_bitcast" atentry);
ignore(build_zext_or_bitcast inst38 double_type "build_bitcast2" atentry);
ignore(build_sext_or_bitcast inst38 double_type "build_bitcast3" atentry);
ignore(build_trunc_or_bitcast inst38 double_type "build_bitcast4" atentry);
ignore(build_pointercast inst37 (pointer_type i16_type) "build_pointercast" atentry);
ignore(build_zext_or_bitcast inst28 i32_type "build_zext2" atentry);
ignore(build_sext_or_bitcast inst29 i64_type "build_sext2" atentry);
ignore(build_trunc_or_bitcast p1 i8_type "build_trunc2" atentry);
ignore(build_pointercast inst37 i64_type "build_ptrtoint2" atentry);
ignore(build_intcast inst29 i64_type "build_sext3" atentry);
ignore(build_intcast p1 i8_type "build_trunc3" atentry);
ignore(build_fpcast inst35 double_type "build_fpext2" atentry);
ignore(build_fpcast inst32 float_type "build_fptrunc2" atentry);
end;
group "comparisons"; begin
(* CHECK: %build_icmp_ne = icmp ne i32 %P1, %P2
* CHECK: %build_icmp_sle = icmp sle i32 %P2, %P1
* CHECK: %build_fcmp_false = fcmp false float %F1, %F2
* CHECK: %build_fcmp_true = fcmp true float %F2, %F1
* CHECK: %build_is_null{{.*}}= icmp eq{{.*}}%X0,{{.*}}null
* CHECK: %build_is_not_null = icmp ne i8* %X1, null
* CHECK: %build_ptrdiff
*)
let c = build_icmp Icmp.Ne p1 p2 "build_icmp_ne" atentry in
insist (Some Icmp.Ne = icmp_predicate c);
insist (None = fcmp_predicate c);
let c = build_icmp Icmp.Sle p2 p1 "build_icmp_sle" atentry in
insist (Some Icmp.Sle = icmp_predicate c);
insist (None = fcmp_predicate c);
let c = build_fcmp Fcmp.False f1 f2 "build_fcmp_false" atentry in
(* insist (Some Fcmp.False = fcmp_predicate c); *)
insist (None = icmp_predicate c);
let c = build_fcmp Fcmp.True f2 f1 "build_fcmp_true" atentry in
(* insist (Some Fcmp.True = fcmp_predicate c); *)
insist (None = icmp_predicate c);
let g0 = declare_global (pointer_type i8_type) "g0" m in
let g1 = declare_global (pointer_type i8_type) "g1" m in
let p0 = build_load g0 "X0" atentry in
let p1 = build_load g1 "X1" atentry in
ignore (build_is_null p0 "build_is_null" atentry);
ignore (build_is_not_null p1 "build_is_not_null" atentry);
ignore (build_ptrdiff p1 p0 "build_ptrdiff" atentry);
end;
group "miscellaneous"; begin
(* CHECK: %build_call = tail call cc63 i32 @{{.*}}(i32 signext %P2, i32 %P1)
* CHECK: %build_select = select i1 %build_icmp, i32 %P1, i32 %P2
* CHECK: %build_va_arg = va_arg i8** null, i32
* CHECK: %build_extractelement = extractelement <4 x i32> %Vec1, i32 %P2
* CHECK: %build_insertelement = insertelement <4 x i32> %Vec1, i32 %P1, i32 %P2
* CHECK: %build_shufflevector = shufflevector <4 x i32> %Vec1, <4 x i32> %Vec2, <4 x i32> <i32 1, i32 1, i32 0, i32 0>
* CHECK: %build_insertvalue0 = insertvalue{{.*}}%bl, i32 1, 0
* CHECK: %build_extractvalue = extractvalue{{.*}}%build_insertvalue1, 1
*)
let ci = build_call fn [| p2; p1 |] "build_call" atentry in
insist (CallConv.c = instruction_call_conv ci);
set_instruction_call_conv 63 ci;
insist (63 = instruction_call_conv ci);
insist (not (is_tail_call ci));
set_tail_call true ci;
insist (is_tail_call ci);
add_instruction_param_attr ci 1 Attribute.Sext;
add_instruction_param_attr ci 2 Attribute.Noalias;
remove_instruction_param_attr ci 2 Attribute.Noalias;
let inst46 = build_icmp Icmp.Eq p1 p2 "build_icmp" atentry in
ignore (build_select inst46 p1 p2 "build_select" atentry);
ignore (build_va_arg
(const_null (pointer_type (pointer_type i8_type)))
i32_type "build_va_arg" atentry);
(* Set up some vector vregs. *)
let one = const_int i32_type 1 in
let zero = const_int i32_type 0 in
let t1 = const_vector [| one; zero; one; zero |] in
let t2 = const_vector [| zero; one; zero; one |] in
let t3 = const_vector [| one; one; zero; zero |] in
let vec1 = build_insertelement t1 p1 p2 "Vec1" atentry in
let vec2 = build_insertelement t2 p1 p2 "Vec2" atentry in
let sty = struct_type context [| i32_type; i8_type |] in
ignore (build_extractelement vec1 p2 "build_extractelement" atentry);
ignore (build_insertelement vec1 p1 p2 "build_insertelement" atentry);
ignore (build_shufflevector vec1 vec2 t3 "build_shufflevector" atentry);
let p = build_alloca sty "ba" atentry in
let agg = build_load p "bl" atentry in
let agg0 = build_insertvalue agg (const_int i32_type 1) 0
"build_insertvalue0" atentry in
let agg1 = build_insertvalue agg0 (const_int i8_type 2) 1
"build_insertvalue1" atentry in
ignore (build_extractvalue agg1 1 "build_extractvalue" atentry)
end;
group "metadata"; begin
(* CHECK: %metadata = add i32 %P1, %P2, !test !1
* !1 is metadata emitted at EOF.
*)
let i = build_add p1 p2 "metadata" atentry in
insist ((has_metadata i) = false);
let m1 = const_int i32_type 1 in
let m2 = mdstring context "metadata test" in
let md = mdnode context [| m1; m2 |] in
let kind = mdkind_id context "test" in
set_metadata i kind md;
insist ((has_metadata i) = true);
insist ((metadata i kind) = Some md);
clear_metadata i kind;
insist ((has_metadata i) = false);
insist ((metadata i kind) = None);
set_metadata i kind md
end;
group "named metadata"; begin
(* !llvm.module.flags is emitted at EOF. *)
let n1 = const_int i32_type 1 in
let n2 = mdstring context "Debug Info Version" in
let n3 = const_int i32_type 2 in
let md = mdnode context [| n1; n2; n3 |] in
add_named_metadata_operand m "llvm.module.flags" md;
insist ((get_named_metadata m "llvm.module.flags") = [| md |])
end;
group "dbg"; begin
(* CHECK: %dbg = add i32 %P1, %P2, !dbg !2
* !2 is metadata emitted at EOF.
*)
insist ((current_debug_location atentry) = Some (mdnode context [||]));
let m_line = const_int i32_type 2 in
let m_col = const_int i32_type 3 in
let m_scope = mdnode context [| |] in
let m_inlined = mdnode context [| |] in
let md = mdnode context [| m_line; m_col; m_scope; m_inlined |] in
set_current_debug_location atentry md;
insist ((current_debug_location atentry) = Some md);
let i = build_add p1 p2 "dbg" atentry in
insist ((has_metadata i) = true);
clear_current_debug_location atentry
end;
group "ret"; begin
(* CHECK: ret{{.*}}P1
*)
let ret = build_ret p1 atentry in
position_before ret atentry
end;
(* see test/Feature/exception.ll *)
let bblpad = append_block context "Bblpad" fn in
let rt = struct_type context [| pointer_type i8_type; i32_type |] in
let ft = var_arg_function_type i32_type [||] in
let personality = declare_function "__gxx_personality_v0" ft m in
let ztic = declare_global (pointer_type i8_type) "_ZTIc" m in
let ztid = declare_global (pointer_type i8_type) "_ZTId" m in
let ztipkc = declare_global (pointer_type i8_type) "_ZTIPKc" m in
begin
set_global_constant true ztic;
set_global_constant true ztid;
set_global_constant true ztipkc;
let lp = build_landingpad rt personality 0 "lpad"
(builder_at_end context bblpad) in begin
set_cleanup lp true;
add_clause lp ztic;
insist((pointer_type (pointer_type i8_type)) = type_of ztid);
let ety = pointer_type (pointer_type i8_type) in
add_clause lp (const_array ety [| ztipkc; ztid |]);
ignore (build_resume lp (builder_at_end context bblpad));
end;
(* CHECK: landingpad{{.*}}personality{{.*}}__gxx_personality_v0
* CHECK: cleanup
* CHECK: catch{{.*}}i8**{{.*}}@_ZTIc
* CHECK: filter{{.*}}@_ZTIPKc{{.*}}@_ZTId
* CHECK: resume
* *)
end;
group "br"; begin
(* CHECK: br{{.*}}Bb02
*)
let bb02 = append_block context "Bb02" fn in
let b = builder_at_end context bb02 in
let br = build_br bb02 b in
insist (successors br = [| bb02 |]) ;
insist (is_conditional br = false) ;
insist (get_branch br = Some (`Unconditional bb02)) ;
end;
group "cond_br"; begin
(* CHECK: br{{.*}}build_br{{.*}}Bb03{{.*}}Bb00
*)
let bb03 = append_block context "Bb03" fn in
let b = builder_at_end context bb03 in
let cond = build_trunc p1 i1_type "build_br" b in
let br = build_cond_br cond bb03 bb00 b in
insist (num_successors br = 2) ;
insist (successor br 0 = bb03) ;
insist (successor br 1 = bb00) ;
insist (is_conditional br = true) ;
insist (get_branch br = Some (`Conditional (cond, bb03, bb00))) ;
end;
group "switch"; begin
(* CHECK: switch{{.*}}P1{{.*}}SwiBlock3
* CHECK: 2,{{.*}}SwiBlock2
*)
let bb1 = append_block context "SwiBlock1" fn in
let bb2 = append_block context "SwiBlock2" fn in
ignore (build_unreachable (builder_at_end context bb2));
let bb3 = append_block context "SwiBlock3" fn in
ignore (build_unreachable (builder_at_end context bb3));
let si = build_switch p1 bb3 1 (builder_at_end context bb1) in begin
ignore (add_case si (const_int i32_type 2) bb2);
insist (switch_default_dest si = bb3);
end;
insist (num_successors si = 2) ;
insist (get_branch si = None) ;
end;
group "malloc/free"; begin
(* CHECK: call{{.*}}@malloc(i32 ptrtoint
* CHECK: call{{.*}}@free(i8*
* CHECK: call{{.*}}@malloc(i32 %
*)
let bb1 = append_block context "MallocBlock1" fn in
let m1 = (build_malloc (pointer_type i32_type) "m1"
(builder_at_end context bb1)) in
ignore (build_free m1 (builder_at_end context bb1));
ignore (build_array_malloc i32_type p1 "m2" (builder_at_end context bb1));
ignore (build_unreachable (builder_at_end context bb1));
end;
group "indirectbr"; begin
(* CHECK: indirectbr i8* blockaddress(@X7, %IBRBlock2), [label %IBRBlock2, label %IBRBlock3]
*)
let bb1 = append_block context "IBRBlock1" fn in
let bb2 = append_block context "IBRBlock2" fn in
ignore (build_unreachable (builder_at_end context bb2));
let bb3 = append_block context "IBRBlock3" fn in
ignore (build_unreachable (builder_at_end context bb3));
let addr = block_address fn bb2 in
let ibr = build_indirect_br addr 2 (builder_at_end context bb1) in
ignore (add_destination ibr bb2);
ignore (add_destination ibr bb3)
end;
group "invoke"; begin
(* CHECK: build_invoke{{.*}}invoke{{.*}}P1{{.*}}P2
* CHECK: to{{.*}}Bb04{{.*}}unwind{{.*}}Bblpad
*)
let bb04 = append_block context "Bb04" fn in
let b = builder_at_end context bb04 in
ignore (build_invoke fn [| p1; p2 |] bb04 bblpad "build_invoke" b)
end;
group "unreachable"; begin
(* CHECK: unreachable
*)
let bb06 = append_block context "Bb06" fn in
let b = builder_at_end context bb06 in
ignore (build_unreachable b)
end;
group "arithmetic"; begin
let bb07 = append_block context "Bb07" fn in
let b = builder_at_end context bb07 in
(* CHECK: %build_add = add i32 %P1, %P2
* CHECK: %build_nsw_add = add nsw i32 %P1, %P2
* CHECK: %build_nuw_add = add nuw i32 %P1, %P2
* CHECK: %build_fadd = fadd float %F1, %F2
* CHECK: %build_sub = sub i32 %P1, %P2
* CHECK: %build_nsw_sub = sub nsw i32 %P1, %P2
* CHECK: %build_nuw_sub = sub nuw i32 %P1, %P2
* CHECK: %build_fsub = fsub float %F1, %F2
* CHECK: %build_mul = mul i32 %P1, %P2
* CHECK: %build_nsw_mul = mul nsw i32 %P1, %P2
* CHECK: %build_nuw_mul = mul nuw i32 %P1, %P2
* CHECK: %build_fmul = fmul float %F1, %F2
* CHECK: %build_udiv = udiv i32 %P1, %P2
* CHECK: %build_sdiv = sdiv i32 %P1, %P2
* CHECK: %build_exact_sdiv = sdiv exact i32 %P1, %P2
* CHECK: %build_fdiv = fdiv float %F1, %F2
* CHECK: %build_urem = urem i32 %P1, %P2
* CHECK: %build_srem = srem i32 %P1, %P2
* CHECK: %build_frem = frem float %F1, %F2
* CHECK: %build_shl = shl i32 %P1, %P2
* CHECK: %build_lshl = lshr i32 %P1, %P2
* CHECK: %build_ashl = ashr i32 %P1, %P2
* CHECK: %build_and = and i32 %P1, %P2
* CHECK: %build_or = or i32 %P1, %P2
* CHECK: %build_xor = xor i32 %P1, %P2
* CHECK: %build_neg = sub i32 0, %P1
* CHECK: %build_nsw_neg = sub nsw i32 0, %P1
* CHECK: %build_nuw_neg = sub nuw i32 0, %P1
* CHECK: %build_fneg = fsub float {{.*}}0{{.*}}, %F1
* CHECK: %build_not = xor i32 %P1, -1
*)
ignore (build_add p1 p2 "build_add" b);
ignore (build_nsw_add p1 p2 "build_nsw_add" b);
ignore (build_nuw_add p1 p2 "build_nuw_add" b);
ignore (build_fadd f1 f2 "build_fadd" b);
ignore (build_sub p1 p2 "build_sub" b);
ignore (build_nsw_sub p1 p2 "build_nsw_sub" b);
ignore (build_nuw_sub p1 p2 "build_nuw_sub" b);
ignore (build_fsub f1 f2 "build_fsub" b);
ignore (build_mul p1 p2 "build_mul" b);
ignore (build_nsw_mul p1 p2 "build_nsw_mul" b);
ignore (build_nuw_mul p1 p2 "build_nuw_mul" b);
ignore (build_fmul f1 f2 "build_fmul" b);
ignore (build_udiv p1 p2 "build_udiv" b);
ignore (build_sdiv p1 p2 "build_sdiv" b);
ignore (build_exact_sdiv p1 p2 "build_exact_sdiv" b);
ignore (build_fdiv f1 f2 "build_fdiv" b);
ignore (build_urem p1 p2 "build_urem" b);
ignore (build_srem p1 p2 "build_srem" b);
ignore (build_frem f1 f2 "build_frem" b);
ignore (build_shl p1 p2 "build_shl" b);
ignore (build_lshr p1 p2 "build_lshl" b);
ignore (build_ashr p1 p2 "build_ashl" b);
ignore (build_and p1 p2 "build_and" b);
ignore (build_or p1 p2 "build_or" b);
ignore (build_xor p1 p2 "build_xor" b);
ignore (build_neg p1 "build_neg" b);
ignore (build_nsw_neg p1 "build_nsw_neg" b);
ignore (build_nuw_neg p1 "build_nuw_neg" b);
ignore (build_fneg f1 "build_fneg" b);
ignore (build_not p1 "build_not" b);
ignore (build_unreachable b)
end;
group "memory"; begin
let bb08 = append_block context "Bb08" fn in
let b = builder_at_end context bb08 in
(* CHECK: %build_alloca = alloca i32
* CHECK: %build_array_alloca = alloca i32, i32 %P2
* CHECK: %build_load = load volatile i32* %build_array_alloca, align 4
* CHECK: store volatile i32 %P2, i32* %build_alloca, align 4
* CHECK: %build_gep = getelementptr i32* %build_array_alloca, i32 %P2
* CHECK: %build_in_bounds_gep = getelementptr inbounds i32* %build_array_alloca, i32 %P2
* CHECK: %build_struct_gep = getelementptr inbounds{{.*}}%build_alloca2, i32 0, i32 1
* CHECK: %build_atomicrmw = atomicrmw xchg i8* %p, i8 42 seq_cst
*)
let alloca = build_alloca i32_type "build_alloca" b in
let array_alloca = build_array_alloca i32_type p2 "build_array_alloca" b in
let load = build_load array_alloca "build_load" b in
ignore(set_alignment 4 load);
ignore(set_volatile true load);
insist(true = is_volatile load);
insist(4 = alignment load);
let store = build_store p2 alloca b in
ignore(set_volatile true store);
ignore(set_alignment 4 store);
insist(true = is_volatile store);
insist(4 = alignment store);
ignore(build_gep array_alloca [| p2 |] "build_gep" b);
ignore(build_in_bounds_gep array_alloca [| p2 |] "build_in_bounds_gep" b);
let sty = struct_type context [| i32_type; i8_type |] in
let alloca2 = build_alloca sty "build_alloca2" b in
ignore(build_struct_gep alloca2 1 "build_struct_gep" b);
let p = build_alloca i8_type "p" b in
ignore(build_atomicrmw AtomicRMWBinOp.Xchg p (const_int i8_type 42)
AtomicOrdering.SequentiallyConsistent false "build_atomicrmw"
b);
ignore(build_unreachable b)
end;
group "string"; begin
let bb09 = append_block context "Bb09" fn in
let b = builder_at_end context bb09 in
let p = build_alloca (pointer_type i8_type) "p" b in
(* build_global_string is emitted above.
* CHECK: store{{.*}}build_global_string1{{.*}}p
* *)
ignore (build_global_string "stringval" "build_global_string" b);
let g = build_global_stringptr "stringval" "build_global_string1" b in
ignore (build_store g p b);
ignore(build_unreachable b);
end;
group "phi"; begin
(* CHECK: PhiNode{{.*}}P1{{.*}}PhiBlock1{{.*}}P2{{.*}}PhiBlock2
*)
let b1 = append_block context "PhiBlock1" fn in
let b2 = append_block context "PhiBlock2" fn in
let jb = append_block context "PhiJoinBlock" fn in
ignore (build_br jb (builder_at_end context b1));
ignore (build_br jb (builder_at_end context b2));
let at_jb = builder_at_end context jb in
let phi = build_phi [(p1, b1)] "PhiNode" at_jb in
insist ([(p1, b1)] = incoming phi);
add_incoming (p2, b2) phi;
insist ([(p1, b1); (p2, b2)] = incoming phi);
(* CHECK: %PhiEmptyNode = phi i8
*)
let phi_empty = build_empty_phi i8_type "PhiEmptyNode" at_jb in
insist ([] = incoming phi_empty);
(* can't emit an empty phi to bitcode *)
add_incoming (const_int i8_type 1, b1) phi_empty;
add_incoming (const_int i8_type 2, b2) phi_empty;
ignore (build_unreachable at_jb);
end
(* End-of-file checks for things like metdata and attributes.
* CHECK: attributes #0 = {{.*}}uwtable{{.*}}
* CHECK: !llvm.module.flags = !{!0}
* CHECK: !0 = !{i32 1, !"Debug Info Version", i32 3}
* CHECK: !1 = !{i32 1, !"metadata test"}
* CHECK: !2 = !MDLocation(line: 2, column: 3, scope: !3, inlinedAt: !3)
*)
(*===-- Pass Managers -----------------------------------------------------===*)
let test_pass_manager () =
let (++) x f = ignore (f x); x in
begin group "module pass manager";
ignore (PassManager.create ()
++ PassManager.run_module m
++ PassManager.dispose)
end;
begin group "function pass manager";
let fty = function_type void_type [| |] in
let fn = define_function "FunctionPassManager" fty m in
ignore (build_ret_void (builder_at_end context (entry_block fn)));
ignore (PassManager.create_function m
++ PassManager.initialize
++ PassManager.run_function fn
++ PassManager.finalize
++ PassManager.dispose)
end
(*===-- Memory Buffer -----------------------------------------------------===*)
let test_memory_buffer () =
group "memory buffer";
let buf = MemoryBuffer.of_string "foobar" in
insist ((MemoryBuffer.as_string buf) = "foobar")
(*===-- Writer ------------------------------------------------------------===*)
let test_writer () =
group "valid";
insist (match Llvm_analysis.verify_module m with
| None -> true
| Some msg -> prerr_string msg; false);
group "writer";
insist (write_bitcode_file m filename);
dispose_module m
(*===-- Driver ------------------------------------------------------------===*)
let _ =
suite "conversion" test_conversion;
suite "target" test_target;
suite "constants" test_constants;
suite "global values" test_global_values;
suite "global variables" test_global_variables;
suite "uses" test_uses;
suite "users" test_users;
suite "aliases" test_aliases;
suite "functions" test_functions;
suite "params" test_params;
suite "basic blocks" test_basic_blocks;
suite "instructions" test_instructions;
suite "builder" test_builder;
suite "pass manager" test_pass_manager;
suite "memory buffer" test_memory_buffer;
suite "writer" test_writer; (* Keep this last; it disposes m. *)
exit !exit_status