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authorQuentin Carbonneaux <quentin.carbonneaux@yale.edu>2016-03-27 18:17:08 -0400
committerQuentin Carbonneaux <quentin.carbonneaux@yale.edu>2016-03-27 18:17:08 -0400
commitda640c5a467bfdf7b3bbced52fc13a28fd8b37bd (patch)
treecf5a4af994ac8b8f7357bbf3414c4179f94321ad /src
parente38c61d95fccd208e13dd14a31a567c3d431677a (diff)
downloadroux-da640c5a467bfdf7b3bbced52fc13a28fd8b37bd.tar.gz
move tools to the root
Diffstat (limited to 'src')
-rw-r--r--src/tools/abi.ml532
-rwxr-xr-xsrc/tools/abitest.sh104
-rw-r--r--src/tools/fptox.c18
-rw-r--r--src/tools/pmov.c252
-rwxr-xr-xsrc/tools/regress.sh17
5 files changed, 0 insertions, 923 deletions
diff --git a/src/tools/abi.ml b/src/tools/abi.ml
deleted file mode 100644
index d845c74..0000000
--- a/src/tools/abi.ml
+++ /dev/null
@@ -1,532 +0,0 @@
-(* fuzzer *)
-
-type _ bty =
-  | Char: int bty
-  | Short: int bty
-  | Int: int bty
-  | Long: int bty
-  | Float: float bty
-  | Double: float bty
-
-type _ sty =
-  | Field: 'a bty * 'b sty -> ('a * 'b) sty
-  | Empty: unit sty
-
-type _ aty =
-  | Base: 'a bty -> 'a aty
-  | Struct: 'a sty -> 'a aty
-
-type anyb = AB: _ bty -> anyb (* kinda boring... *)
-type anys = AS: _ sty -> anys
-type anya = AA: _ aty -> anya
-type testb = TB: 'a bty * 'a -> testb
-type testa = TA: 'a aty * 'a -> testa
-
-
-let align a x =
-  let m = x mod a in
-  if m <> 0 then x + (a-m) else x
-
-let btysize: type a. a bty -> int = function
-  | Char -> 1
-  | Short -> 2
-  | Int -> 4
-  | Long -> 8
-  | Float -> 4
-  | Double -> 8
-
-let btyalign = btysize
-
-let styempty: type a. a sty -> bool = function
-  | Field _ -> false
-  | Empty -> true
-
-let stysize s =
-  let rec f: type a. int -> a sty -> int =
-    fun sz -> function
-    | Field (b, s) ->
-      let a = btyalign b in
-      f (align a sz + btysize b) s
-    | Empty -> sz in
-  f 0 s
-
-let rec styalign: type a. a sty -> int = function
-  | Field (b, s) -> max (btyalign b) (styalign s)
-  | Empty -> 1
-
-
-(* Generate types and test vectors. *)
-module Gen = struct
-  module R = Random
-
-  let init = function
-    | None ->
-      let f = open_in "/dev/urandom" in
-      let seed =
-        Char.code (input_char f) lsl 8 +
-        Char.code (input_char f) in
-      close_in f;
-      R.init seed;
-      seed
-    | Some seed ->
-      R.init seed;
-      seed
-
-  let int sz =
-    let bound = 1 lsl (8 * min sz 3 - 1) in
-    let i = R.int bound in
-    if R.bool () then - i else i
-
-  let float () =
-    let f = R.float 1000. in
-    if R.bool () then -. f else f
-
-  let testv: type a. a aty -> a =
-    let tb: type a. a bty -> a = function (* eh, dry... *)
-      | Float  -> float ()
-      | Double -> float ()
-      | Char   -> int (btysize Char)
-      | Short  -> int (btysize Short)
-      | Int    -> int (btysize Int)
-      | Long   -> int (btysize Long) in
-    let rec ts: type a. a sty -> a = function
-      | Field (b, s) -> (tb b, ts s)
-      | Empty -> () in
-    function
-    | Base b -> tb b
-    | Struct s -> ts s
-
-  let b () = (* uniform *)
-    match R.int 6 with
-    | 0 -> AB Char
-    | 1 -> AB Short
-    | 2 -> AB Int
-    | 3 -> AB Long
-    | 4 -> AB Float
-    | _ -> AB Double
-
-  let smax = 5      (* max elements in structs *)
-  let structp = 0.3 (* odds of having a struct type *)
-  let amax = 8      (* max function arguments *)
-
-  let s () =
-    let rec f n =
-      if n = 0 then AS Empty else
-      let AB bt = b () in
-      let AS st = f (n-1) in
-      AS (Field (bt, st)) in
-    f (1 + R.int (smax-1))
-
-  let a () =
-    if R.float 1.0 > structp then
-      let AB bt = b () in
-      AA (Base bt)
-    else
-      let AB bt = b () in
-      let AS st = s () in
-      AA (Struct (Field (bt, st)))
-
-  let test () =
-    let AA ty = a () in
-    let t = testv ty in
-    TA (ty, t)
-
-  let tests () =
-    let rec f n =
-      if n = 0 then [] else
-      test () :: f (n-1) in
-    f (R.int amax)
-
-end
-
-
-(* Code generation for C *)
-module OutC = struct
-  open Printf
-
-  let ctypelong oc name =
-    let cb: type a. a bty -> unit = function
-      | Char   -> fprintf oc "char"
-      | Short  -> fprintf oc "short"
-      | Int    -> fprintf oc "int"
-      | Long   -> fprintf oc "long"
-      | Float  -> fprintf oc "float"
-      | Double -> fprintf oc "double" in
-    let rec cs: type a. int -> a sty -> unit =
-      fun i -> function
-      | Field (b, s) ->
-        cb b;
-        fprintf oc " f%d; " i;
-        cs (i+1) s;
-      | Empty -> () in
-    function
-    | Base b ->
-      cb b;
-    | Struct s ->
-      fprintf oc "struct %s { " name;
-      cs 1 s;
-      fprintf oc "}";
-      ()
-
-  let ctype: type a. out_channel -> string -> a aty -> unit =
-    fun oc name -> function
-    | Struct _ -> fprintf oc "struct %s" name
-    | t -> ctypelong oc "" t
-
-  let base: type a. out_channel -> a bty * a -> unit =
-    fun oc -> function
-    | Char, i   -> fprintf oc "%d" i
-    | Short, i  -> fprintf oc "%d" i
-    | Int, i    -> fprintf oc "%d" i
-    | Long, i   -> fprintf oc "%d" i
-    | Float, f  -> fprintf oc "%ff" f
-    | Double, f -> fprintf oc "%f" f
-
-  let init oc name (TA (ty, t)) =
-    let inits s =
-      let rec f: type a. a sty * a -> unit = function
-        | Field (b, s), (tb, ts) ->
-          base oc (b, tb);
-          fprintf oc ", ";
-          f (s, ts)
-        | Empty, () -> () in
-      fprintf oc "{ ";
-      f s;
-      fprintf oc "}"; in
-    ctype oc name ty;
-    fprintf oc " %s = " name;
-    begin match (ty, t) with
-    | Base b, tb -> base oc (b, tb)
-    | Struct s, ts -> inits (s, ts)
-    end;
-    fprintf oc ";\n";
-    ()
-
-  let extension = ".c"
-
-  let comment oc s =
-    fprintf oc "/* %s */\n" s
-
-  let prelude oc = List.iter (fprintf oc "%s\n")
-    [ "#include <stdio.h>"
-    ; "#include <stdlib.h>"
-    ; ""
-    ; "static void fail(char *chk)"
-    ; "{"
-    ; "\tfprintf(stderr, \"fail: checking %s\\n\", chk);"
-    ; "\tabort();"
-    ; "}"
-    ; ""
-    ]
-
-  let typedef oc name = function
-    | TA (Struct ts, _) ->
-      ctypelong oc name (Struct ts);
-      fprintf oc ";\n";
-    | _ -> ()
-
-  let check oc name =
-    let chkbase: type a. string -> a bty * a -> unit =
-      fun name t ->
-        fprintf oc "\tif (%s != " name;
-        base oc t;
-        fprintf oc ")\n\t\tfail(%S);\n" name; in
-    function
-    | TA (Base b, tb) -> chkbase name (b, tb)
-    | TA (Struct s, ts) ->
-      let rec f: type a. int -> a sty * a -> unit =
-        fun i -> function
-        | Field (b, s), (tb, ts) ->
-          chkbase (Printf.sprintf "%s.f%d" name i) (b, tb);
-          f (i+1) (s, ts);
-        | Empty, () -> () in
-      f 1 (s, ts)
-
-  let argname i = "arg" ^ string_of_int (i+1)
-
-  let proto oc (TA (tret, _)) args =
-    ctype oc "ret" tret;
-    fprintf oc " f(";
-    let narg = List.length args in
-    List.iteri (fun i (TA (targ, _)) ->
-      ctype oc (argname i) targ;
-      fprintf oc " %s" (argname i);
-      if i <> narg-1 then
-        fprintf oc ", ";
-    ) args;
-    fprintf oc ")";
-    ()
-
-  let caller oc ret args =
-    let narg = List.length args in
-    prelude oc;
-    typedef oc "ret" ret;
-    List.iteri (fun i arg ->
-      typedef oc (argname i) arg;
-    ) args;
-    proto oc ret args;
-    fprintf oc ";\n\nint main()\n{\n";
-    List.iteri (fun i arg ->
-      fprintf oc "\t";
-      init oc (argname i) arg;
-    ) args;
-    fprintf oc "\t";
-    let TA (tret, _) = ret in
-    ctype oc "ret" tret;
-    fprintf oc " ret;\n\n";
-    fprintf oc "\tret = f(";
-    List.iteri (fun i _ ->
-      fprintf oc "%s" (argname i);
-      if i <> narg-1 then
-        fprintf oc ", ";
-    ) args;
-    fprintf oc ");\n";
-    check oc "ret" ret;
-    fprintf oc "\n\treturn 0;\n}\n";
-    ()
-
-  let callee oc ret args =
-    prelude oc;
-    typedef oc "ret" ret;
-    List.iteri (fun i arg ->
-      typedef oc (argname i) arg;
-    ) args;
-    fprintf oc "\n";
-    proto oc ret args;
-    fprintf oc "\n{\n\t";
-    init oc "ret" ret;
-    fprintf oc "\n";
-    List.iteri (fun i arg ->
-      check oc (argname i) arg;
-    ) args;
-    fprintf oc "\n\treturn ret;\n}\n";
-    ()
-
-end
-
-(* Code generation for QBE *)
-module OutIL = struct
-  open Printf
-
-  let comment oc s =
-    fprintf oc "# %s\n" s
-
-  let tmp, lbl =
-    let next = ref 0 in
-    (fun () -> incr next; "%t" ^ (string_of_int !next)),
-    (fun () -> incr next; "@l" ^ (string_of_int !next))
-
-  let bvalue: type a. a bty * a -> string = function
-    | Char, i   -> sprintf "%d" i
-    | Short, i  -> sprintf "%d" i
-    | Int, i    -> sprintf "%d" i
-    | Long, i   -> sprintf "%d" i
-    | Float, f  -> sprintf "s_%f" f
-    | Double, f -> sprintf "d_%f" f
-
-  let btype: type a. a bty -> string = function
-    | Char   -> "w"
-    | Short  -> "w"
-    | Int    -> "w"
-    | Long   -> "l"
-    | Float  -> "s"
-    | Double -> "d"
-
-  let extension = ".ssa"
-
-  let argname i = "arg" ^ string_of_int (i+1)
-
-  let siter oc base s g =
-    let rec f: type a. int -> int -> a sty * a -> unit =
-      fun id off -> function
-      | Field (b, s), (tb, ts) ->
-        let off = align (btyalign b) off in
-        let addr = tmp () in
-        fprintf oc "\t%s =l add %d, %s\n" addr off base;
-        g id addr (TB (b, tb));
-        f (id + 1) (off + btysize b) (s, ts);
-     | Empty, () -> () in
-   f 0 0 s
-
-  let bmemtype b =
-    if AB b = AB Char  then "b" else
-    if AB b = AB Short then "h" else
-    btype b
-
-  let init oc = function
-    | TA (Base b, tb) -> bvalue (b, tb)
-    | TA (Struct s, ts) ->
-      let base = tmp () in
-      fprintf oc "\t%s =l alloc%d %d\n"
-        base (styalign s) (stysize s);
-      siter oc base (s, ts)
-      begin fun _ addr (TB (b, tb)) ->
-        fprintf oc "\tstore%s %s, %s\n"
-          (bmemtype b) (bvalue (b, tb)) addr;
-      end;
-      base
-
-  let check oc id name =
-    let bcheck = fun id name (b, tb) ->
-      let tcmp = tmp () in
-      let nxtl = lbl () in
-      fprintf oc "\t%s =w ceq%s %s, %s\n"
-        tcmp (btype b) name (bvalue (b, tb));
-      fprintf oc "\tstorew %d, %%failcode\n" id;
-      fprintf oc "\tjnz %s, %s, @fail\n" tcmp nxtl;
-      fprintf oc "%s\n" nxtl; in
-    function
-    | TA (Base Char, i) ->
-      let tval = tmp () in
-      fprintf oc "\t%s =w extsb %s\n" tval name;
-      bcheck id tval (Int, i)
-    | TA (Base Short, i) ->
-      let tval = tmp () in
-      fprintf oc "\t%s =w extsh %s\n" tval name;
-      bcheck id tval (Int, i)
-    | TA (Base b, tb) ->
-      bcheck id name (b, tb)
-    | TA (Struct s, ts) ->
-      siter oc name (s, ts)
-      begin fun id' addr (TB (b, tb)) ->
-        let tval = tmp () in
-        let lsuffix =
-          if AB b = AB Char  then "sb" else
-          if AB b = AB Short then "sh" else
-          "" in
-        fprintf oc "\t%s =%s load%s %s\n"
-          tval (btype b) lsuffix addr;
-        bcheck (100*id + id'+1) tval (b, tb);
-      end;
-      ()
-
-  let ttype name = function
-    | TA (Base b, _)   -> btype b
-    | TA (Struct _, _) -> ":" ^ name
-
-  let typedef oc name =
-    let rec f: type a. a sty -> unit = function
-      | Field (b, s) ->
-        fprintf oc "%s" (bmemtype b);
-        if not (styempty s) then
-          fprintf oc ", ";
-        f s;
-      | Empty -> () in
-    function
-    | TA (Struct ts, _) ->
-      fprintf oc "type :%s = { " name;
-      f ts;
-      fprintf oc " }\n";
-    | _ -> ()
-
-  let postlude oc = List.iter (fprintf oc "%s\n")
-    [ "@fail"
-    ;  "# failure code"
-    ; "\t%fcode =w loadw %failcode"
-    ; "\t%f0 =w call $printf(l $failstr, w %fcode)"
-    ; "\t%f1 =w call $abort()"
-    ; "\tret 0"
-    ; "}"
-    ; ""
-    ; "data $failstr = { b \"fail on check %d\\n\", b 0 }"
-    ]
-
-  let caller oc ret args =
-    let narg = List.length args in
-    List.iteri (fun i arg ->
-      typedef oc (argname i) arg;
-    ) args;
-    typedef oc "ret" ret;
-    fprintf oc "\nfunction w $main() {\n";
-    fprintf oc "@start\n";
-    fprintf oc "\t%%failcode =l alloc4 4\n";
-    let targs = List.mapi (fun i arg ->
-      comment oc ("define argument " ^ (string_of_int (i+1)));
-      (ttype (argname i) arg, init oc arg)
-    ) args in
-    comment oc "call test function";
-    fprintf oc "\t%%ret =%s call $f(" (ttype "ret" ret);
-    List.iteri (fun i (ty, tmp) ->
-      fprintf oc "%s %s" ty tmp;
-      if i <> narg-1 then
-        fprintf oc ", ";
-    ) targs;
-    fprintf oc ")\n";
-    comment oc "check the return value";
-    check oc 0 "%ret" ret;
-    fprintf oc "\tret 0\n";
-    postlude oc;
-    ()
-
-  let callee oc ret args =
-    let narg = List.length args in
-    List.iteri (fun i arg ->
-      typedef oc (argname i) arg;
-    ) args;
-    typedef oc "ret" ret;
-    fprintf oc "\nfunction %s $f(" (ttype "ret" ret);
-    List.iteri (fun i arg ->
-      let a = argname i in
-      fprintf oc "%s %%%s" (ttype a arg) a;
-      if i <> narg-1 then
-        fprintf oc ", ";
-    ) args;
-    fprintf oc ") {\n";
-    fprintf oc "@start\n";
-    fprintf oc "\t%%failcode =l alloc4 4\n";
-    List.iteri (fun i arg ->
-      comment oc ("checking argument " ^ (string_of_int (i+1)));
-      check oc (i+1) ("%" ^ argname i) arg;
-    ) args;
-    comment oc "define the return value";
-    let rettmp = init oc ret in
-    fprintf oc "\tret %s\n" rettmp;
-    postlude oc;
-    ()
-
-end
-
-
-module type OUT = sig
-  val extension: string
-  val comment: out_channel -> string -> unit
-  val caller: out_channel -> testa -> testa list -> unit
-  val callee: out_channel -> testa -> testa list -> unit
-end
-
-let _ =
-  let usage code =
-    Printf.eprintf "usage: abi.ml [-s SEED] DIR {c,ssa} {c,ssa}\n";
-    exit code in
-
-  let outmod = function
-    | "c"   -> (module OutC : OUT)
-    | "ssa" -> (module OutIL: OUT)
-    | _ -> usage 1 in
-
-  let seed, dir, mcaller, mcallee =
-    match Sys.argv with
-    | [| _; "-s"; seed; dir; caller; callee |] ->
-      let seed =
-        try Some (int_of_string seed) with
-        Failure _ -> usage 1 in
-      seed, dir, outmod caller, outmod callee
-    | [| _; dir; caller; callee |] ->
-      None, dir, outmod caller, outmod callee
-    | [| _; "-h" |] ->
-      usage 0
-    | _ ->
-      usage 1 in
-
-  let seed = Gen.init seed in
-  let tret = Gen.test () in
-  let targs = Gen.tests () in
-  let module OCaller = (val mcaller : OUT) in
-  let module OCallee = (val mcallee : OUT) in
-  let ocaller = open_out (dir ^ "/caller" ^ OCaller.extension) in
-  let ocallee = open_out (dir ^ "/callee" ^ OCallee.extension) in
-  OCaller.comment ocaller (Printf.sprintf "seed %d" seed);
-  OCallee.comment ocallee (Printf.sprintf "seed %d" seed);
-  OCaller.caller ocaller tret targs;
-  OCallee.callee ocallee tret targs;
-  ()
diff --git a/src/tools/abitest.sh b/src/tools/abitest.sh
deleted file mode 100755
index d5b16e5..0000000
--- a/src/tools/abitest.sh
+++ /dev/null
@@ -1,104 +0,0 @@
-#!/bin/sh
-
-OCAMLC=/usr/bin/ocamlc
-QBE=`pwd`/qbe
-
-failure() {
-	echo "Failure at stage:" $1 >&2
-	exit 1
-}
-
-cleanup() {
-	rm -fr $TMP
-}
-
-init() {
-	cp tools/abi.ml $TMP
-	pushd $TMP > /dev/null
-
-	cat > Makefile << EOM
-
-.PHONY: test
-test: caller.o callee.o
-	c99 -o \$@ caller.o callee.o
-%.o: %.c
-	c99 -c -o \$@ \$<
-%.o: %.ssa
-	$QBE -o \$*.s \$<
-	c99 -c -o \$@ \$*.s
-
-EOM
-
-	if ! $OCAMLC abi.ml -o gentest
-	then
-		popd > /dev/null
-		cleanup
-		failure "abifuzz compilation"
-	fi
-	popd > /dev/null
-}
-
-once() {
-	if test -z "$3"
-	then
-		$TMP/gentest $TMP $1 $2
-	else
-		$TMP/gentest -s $3 $TMP $1 $2
-	fi
-	make -C $TMP test > /dev/null || failure "building"
-	$TMP/test || failure "runtime"
-}
-
-usage() {
-	echo "usage: abitest.sh [-callssa] [-callc] [-s SEED] [-n ITERATIONS]" >&2
-	exit 1
-}
-
-N=1
-CALLER=c
-CALLEE=ssa
-
-while test -n "$1"
-do
-	case "$1" in
-	"-callssa")
-		;;
-	"-callc")
-		CALLER=ssa
-		CALLEE=c
-		;;
-	"-s")
-		test -n "$2" || usage
-		shift
-		SEED="$1"
-		;;
-	"-n")
-		test -n "$2" || usage
-		shift
-		N="$1"
-		;;
-	*)
-		usage
-		;;
-	esac
-	shift
-done
-
-TMP=`mktemp -d abifuzz.XXXXXX`
-
-init
-
-if test -n "$S"
-then
-	once $CALLER $CALLEE $SEED
-else
-	for n in `seq $N`
-	do
-		once $CALLER $CALLEE
-		echo "$n" | grep "00$"
-	done
-fi
-
-echo "All done."
-
-cleanup
diff --git a/src/tools/fptox.c b/src/tools/fptox.c
deleted file mode 100644
index a2bc155..0000000
--- a/src/tools/fptox.c
+++ /dev/null
@@ -1,18 +0,0 @@
-#include <stdio.h>
-#include <stdlib.h>
-
-int
-main(int ac, char *av[])
-{
-	double d;
-	float f;
-
-	if (ac < 2) {
-	usage:
-		fputs("usage: fptox NUMBER\n", stderr);
-		return 1;
-	}
-	f = d = strtod(av[1], 0);
-	printf("0x%08x 0x%016llx\n", *(unsigned *)&f, *(unsigned long long*)&d);
-	return 0;
-}
diff --git a/src/tools/pmov.c b/src/tools/pmov.c
deleted file mode 100644
index efbecd7..0000000
--- a/src/tools/pmov.c
+++ /dev/null
@@ -1,252 +0,0 @@
-/*% rm -f rega.o main.o && cc -g -std=c99 -Wall -DTEST_PMOV -o # % *.o
- *
- * This is a test framwork for the dopm() function
- * in rega.c, use it when you want to modify it or
- * all the parallel move functions.
- *
- * You might need to decrease NIReg to see it
- * terminate, I used NIReg == 7 at most.
- */
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
-static void assert_test(char *, int), fail(void), iexec(int *);
-
-#include "../rega.c"
-
-static RMap mbeg;
-static Ins ins[NIReg], *ip;
-static Blk dummyb = { .ins = ins };
-
-int
-main()
-{
-	Ins *i1;
-	unsigned long long tm, rm, cnt;
-	RMap mend;
-	int reg[NIReg], val[NIReg+1];
-	int t, i, r, nr;
-
-	tmp = (Tmp[Tmp0+NIReg]){{{0}}};
-	for (t=0; t<Tmp0+NIReg; t++)
-		if (t >= Tmp0) {
-			tmp[t].cls = Kw;
-			tmp[t].hint.r = -1;
-			tmp[t].hint.m = 0;
-			tmp[t].slot = -1;
-			sprintf(tmp[t].name, "tmp%d", t-Tmp0+1);
-		}
-
-	bsinit(mbeg.b, Tmp0+NIReg);
-	bsinit(mend.b, Tmp0+NIReg);
-	cnt = 0;
-	for (tm = 0; tm < 1ull << (2*NIReg); tm++) {
-		mbeg.n = 0;
-		bszero(mbeg.b);
-		ip = ins;
-
-		/* find what temporaries are in copy and
-		 * wether or not they are in register
-		 */
-		for (t=0; t<NIReg; t++)
-			switch ((tm >> (2*t)) & 3) {
-			case 0:
-				/* not in copy, not in reg */
-				break;
-			case 1:
-				/* not in copy, in reg */
-				radd(&mbeg, Tmp0+t, t+1);
-				break;
-			case 2:
-				/* in copy, not in reg */
-				*ip++ = (Ins){OCopy, TMP(Tmp0+t), {R, R}, Kw};
-				break;
-			case 3:
-				/* in copy, in reg */
-				*ip++ = (Ins){OCopy, TMP(Tmp0+t), {R, R}, Kw};
-				radd(&mbeg, Tmp0+t, t+1);
-				break;
-			}
-
-		if (ip == ins)
-			/* cancel if the parallel move
-			 * is empty
-			 */
-			goto Nxt;
-
-		/* find registers for temporaries
-		 * in mbeg
-		 */
-		nr = ip - ins;
-		rm = (1ull << (nr+1)) - 1;
-		for (i=0; i<nr; i++)
-			reg[i] = i+1;
-
-		for (;;) {
-			/* set registers on copies
-			 */
-			for (i=0, i1=ins; i1<ip; i1++, i++)
-				i1->arg[0] = TMP(reg[i]);
-
-			/* compile the parallel move
-			 */
-			rcopy(&mend, &mbeg);
-			dopm(&dummyb, ip-1, &mend);
-			cnt++;
-
-			/* check that mend contain mappings for
-			 * source registers and does not map any
-			 * assigned temporary, then check that
-			 * all temporaries in mend are mapped in
-			 * mbeg and not used in the copy
-			 */
-			for (i1=ins; i1<ip; i1++) {
-				r = i1->arg[0].val;
-				assert(rfree(&mend, r) == r);
-				t = i1->to.val;
-				assert(!bshas(mend.b, t));
-			}
-			for (i=0; i<mend.n; i++) {
-				t = mend.t[i];
-				assert(bshas(mbeg.b, t));
-				t -= Tmp0;
-				assert(((tm >> (2*t)) & 3) == 1);
-			}
-
-			/* execute the code generated and check
-			 * that all assigned temporaries got their
-			 * value, and that all live variables's
-			 * content got preserved
-			 */
-			 for (i=1; i<=NIReg; i++)
-			 	val[i] = i;
-			 iexec(val);
-			 for (i1=ins; i1<ip; i1++) {
-			 	t = i1->to.val;
-			 	r = rfind(&mbeg, t);
-			 	if (r != -1)
-			 		assert(val[r] == i1->arg[0].val);
-			 }
-			 for (i=0; i<mend.n; i++) {
-			 	t = mend.t[i];
-			 	r = mend.r[i];
-			 	assert(val[t-Tmp0+1] == r);
-			 }
-
-			/* find the next register assignment */
-			i = nr - 1;
-			for (;;) {
-				r = reg[i];
-				rm &= ~(1ull<<r);
-				do
-					r++;
-				while (r <= NIReg && (rm & (1ull<<r)));
-				if (r == NIReg+1) {
-					if (i == 0)
-						goto Nxt;
-					i--;
-				} else {
-					rm |= (1ull<<r);
-					reg[i++] = r;
-					break;
-				}
-			}
-			for (; i<nr; i++)
-				for (r=1; r<=NIReg; r++)
-					if (!(rm & (1ull<<r))) {
-						rm |= (1ull<<r);
-						reg[i] = r;
-						break;
-					}
-		}
-	Nxt:	;
-	}
-	printf("%llu tests successful!\n", cnt);
-	exit(0);
-}
-
-
-/* execute what pmgen() wrote (swap, copy) */
-
-#define validr(r)           \
-	rtype(r) == RTmp && \
-	r.val > 0 &&        \
-	r.val <= NIReg
-
-static void
-iexec(int val[])
-{
-	Ins *i;
-	int t;
-
-	for (i=insb; i<curi; i++)
-		switch (i->op) {
-		default:
-			assert(!"iexec: missing case\n");
-			exit(1);
-		case OSwap:
-			assert(validr(i->arg[0]));
-			assert(validr(i->arg[1]));
-			t = val[i->arg[0].val];
-			val[i->arg[0].val] = val[i->arg[1].val];
-			val[i->arg[1].val] = t;
-			break;
-		case OCopy:
-			assert(validr(i->to));
-			assert(validr(i->arg[0]));
-			val[i->to.val] = val[i->arg[0].val];
-			break;
-		}
-}
-
-
-/* failure diagnostics */
-
-static int re;
-
-static void
-replay()
-{
-	RMap mend;
-
-	re = 1;
-	bsinit(mend.b, Tmp0+NIReg);
-	rcopy(&mend, &mbeg);
-	dopm(&dummyb, ip-1, &mend);
-}
-
-static void
-fail()
-{
-	Ins *i1;
-	int i;
-
-	printf("\nIn registers: ");
-	for (i=0; i<mbeg.n; i++)
-		printf("%s(r%d) ",
-			tmp[mbeg.t[i]].name,
-			mbeg.r[i]);
-	printf("\n");
-	printf("Parallel move:\n");
-	for (i1=ins; i1<ip; i1++)
-		printf("\t %s <- r%d\n",
-			tmp[i1->to.val].name,
-			i1->arg[0].val);
-	replay();
-	abort();
-}
-
-static void
-assert_test(char *s, int x)
-{
-	if (x)
-		return;
-	if (re)
-		abort();
-	printf("!assertion failure: %s\n", s);
-	fail();
-}
-
-/* symbols required by the linker */
-char debug['Z'+1];
diff --git a/src/tools/regress.sh b/src/tools/regress.sh
deleted file mode 100755
index 4106b00..0000000
--- a/src/tools/regress.sh
+++ /dev/null
@@ -1,17 +0,0 @@
-#!/bin/sh
-
-for t in test/*
-do
-	printf "Test $t ... "
-
-	./qbe   $t >/tmp/out.0 2>&1
-	./qbe.1 $t >/tmp/out.1 2>&1
-
-	if diff /tmp/out.0 /tmp/out.1 > /dev/null
-	then
-		echo "OK"
-	else
-		echo "KO"
-		break
-	fi
-done