8 files changed, 11641 insertions, 0 deletions

diff --git a/.gitignore b/.gitignore
index e69de29..8c6b7db 100644
--- a/.gitignore
+++ b/.gitignore
@@ -0,0 +1 @@
+/openresty-1.21.4.1.tar.gz
diff --git a/0001-add-option-out-dir-on-configure.patch b/0001-add-option-out-dir-on-configure.patch
new file mode 100644
index 0000000..190dd50
--- /dev/null
+++ b/0001-add-option-out-dir-on-configure.patch
@@ -0,0 +1,270 @@
+From 18af66624114a213b033bc5e5e42154c48e404ae Mon Sep 17 00:00:00 2001
+From: fu_changjie <fu_changjie@qq.com>
+Date: Thu, 10 Dec 2020 15:29:20 +0800
+Subject: [PATCH] add option out-dir on configure and use different Makefile
+
+---
+ configure | 86 ++++++++++++++++++++++++++++++-------------------------
+ 1 file changed, 47 insertions(+), 39 deletions(-)
+
+diff --git a/configure b/configure
+index d461294..cad4913 100755
+--- a/configure
++++ b/configure
+@@ -127,6 +127,7 @@ my $prefix = '/usr/local/openresty';
+ my $ngx_sbin;
+ my %resty_opts;
+ my $dry_run;
++my $out_dir = 'build';
+ my @ngx_rpaths;
+ my $cc;
+ my $cores;
+@@ -160,6 +161,11 @@ for my $opt (@ARGV) {
+         $dry_run = 1;
+         next;
+     }
++    
++    if ($opt =~ /^--out-dir=(.+)/) {
++        $out_dir = $1;
++        next;
++    }
+ 
+     if ($opt =~ /^--with-make=(.*)/) {
+         $resty_opts{make} = $1;
+@@ -422,10 +428,10 @@ my $cmd = "sh ./configure --prefix=$ngx_prefix"
+ 
+ shell $cmd, $dry_run;
+ 
+-push @make_cmds, "cd $root_dir/build/$ngx_dir && "
++push @make_cmds, "cd $root_dir/$out_dir/$ngx_dir && "
+     . "\$(MAKE)";
+ 
+-push @make_install_cmds, "cd $root_dir/build/$ngx_dir && "
++push @make_install_cmds, "cd $root_dir/$out_dir/$ngx_dir && "
+     . "\$(MAKE) install DESTDIR=\$(DESTDIR)";
+ 
+ push @make_install_cmds,
+@@ -620,18 +626,18 @@ _END_
+         #unshift @ngx_cc_opts, '-O2';
+     }
+ 
+-    if (-d 'build') {
+-        system("rm -rf build") == 0 or
+-            die "failed to remove directory build/.\n";
++    if (-d "$out_dir") {
++        system("rm -rf $out_dir") == 0 or
++            die "failed to remove directory $out_dir/.\n";
+     }
+ 
+-    if (-e 'build') {
+-        die "file or directory \"build\" already exists. please remove it ",
++    if (-e "$out_dir") {
++        die "file or directory \"$out_dir\" already exists. please remove it ",
+             "first.\n";
+     }
+-    shell "cp -rp bundle/ build";
++    shell "cp -rp bundle/ $out_dir";
+ 
+-    cd 'build';
++    cd "$out_dir";
+ 
+     push @make_install_cmds, "mkdir -p \$(DESTDIR)$prefix/",
+         "-cp $root_dir/COPYRIGHT \$(DESTDIR)$prefix/";
+@@ -776,8 +782,8 @@ _END_
+         }
+ 
+         if ($on_solaris) {
+-            $extra_opts .= " INSTALL_X='$root_dir/build/install -m 0755' " .
+-                    "INSTALL_F='$root_dir/build/install -m 0644'";
++            $extra_opts .= " INSTALL_X='$root_dir/$out_dir/install -m 0755' " .
++                    "INSTALL_F='$root_dir/$out_dir/install -m 0644'";
+         }
+ 
+         if (defined $cc) {
+@@ -837,11 +843,11 @@ _END_
+                                        "include", "luajit-2.1");
+         }
+ 
+-        push @make_cmds, "cd $root_dir/build/$luajit_src && "
++        push @make_cmds, "cd $root_dir/$out_dir/$luajit_src && "
+             . "\$(MAKE)$extra_opts PREFIX=$luajit_prefix";
+ 
+         my $abs_luajit_src =
+-            File::Spec->rel2abs(File::Spec->catfile($root_dir, "build",
++            File::Spec->rel2abs(File::Spec->catfile($root_dir, "$out_dir",
+                                                     $luajit_src),
+                                 $root_dir);
+ 
+@@ -979,10 +985,10 @@ _EOC_
+                 $extra_opts .= " CC=cc";
+             }
+ 
+-            push @make_cmds, "cd $root_dir/build/$dir && ".
++            push @make_cmds, "cd $root_dir/$out_dir/$dir && ".
+                 "\$(MAKE)$extra_opts";
+ 
+-            push @make_install_cmds, "cd $root_dir/build/$dir && " .
++            push @make_install_cmds, "cd $root_dir/$out_dir/$dir && " .
+                 "\$(MAKE) install$extra_opts";
+         }
+ 
+@@ -994,7 +1000,7 @@ _EOC_
+                 "LUA_LIB_DIR=$lualib_prefix";
+ 
+             if ($on_solaris) {
+-                $extra_opts .= " INSTALL=$root_dir/build/install";
++                $extra_opts .= " INSTALL=$root_dir/$out_dir/install";
+             }
+ 
+             if ($opts->{debug}) {
+@@ -1017,10 +1023,10 @@ _EOC_
+                 $extra_opts .= " CC=cc";
+             }
+ 
+-            push @make_cmds, "cd $root_dir/build/$dir && " .
++            push @make_cmds, "cd $root_dir/$out_dir/$dir && " .
+                 "\$(MAKE)$extra_opts";
+ 
+-            push @make_install_cmds, "cd $root_dir/build/$dir && " .
++            push @make_install_cmds, "cd $root_dir/$out_dir/$dir && " .
+                 "\$(MAKE) install$extra_opts";
+         }
+ 
+@@ -1047,7 +1053,7 @@ _EOC_
+             }
+ 
+             if ($on_solaris) {
+-                $extra_opts .= " INSTALL=$root_dir/build/install";
++                $extra_opts .= " INSTALL=$root_dir/$out_dir/install";
+                 if ($opts->{debug}) {
+                     $extra_opts .= " CFLAGS=\"-g -O -Wall\"";
+                 }
+@@ -1068,10 +1074,10 @@ _EOC_
+                 $extra_opts .= " CC=cc";
+             }
+ 
+-            push @make_cmds, "cd $root_dir/build/$dir && ".
++            push @make_cmds, "cd $root_dir/$out_dir/$dir && ".
+                 "\$(MAKE)$extra_opts";
+ 
+-            push @make_install_cmds, "cd $root_dir/build/$dir && " .
++            push @make_install_cmds, "cd $root_dir/$out_dir/$dir && " .
+                 "\$(MAKE) install$extra_opts";
+         }
+ 
+@@ -1098,7 +1104,7 @@ _EOC_
+             }
+ 
+             if ($on_solaris) {
+-                $extra_opts .= " INSTALL=$root_dir/build/install";
++                $extra_opts .= " INSTALL=$root_dir/$out_dir/install";
+                 if ($opts->{debug}) {
+                     $extra_opts .= " CFLAGS=\"-g -O -Wall\"";
+ 
+@@ -1120,10 +1126,10 @@ _EOC_
+                 $extra_opts .= " CC=cc";
+             }
+ 
+-            push @make_cmds, "cd $root_dir/build/$dir && ".
++            push @make_cmds, "cd $root_dir/$out_dir/$dir && ".
+                 "\$(MAKE)$extra_opts";
+ 
+-            push @make_install_cmds, "cd $root_dir/build/$dir && " .
++            push @make_install_cmds, "cd $root_dir/$out_dir/$dir && " .
+                 "\$(MAKE) install$extra_opts";
+         }
+ 
+@@ -1146,8 +1152,8 @@ _EOC_
+         } else {
+             $target_dir = "\$(DESTDIR)$prefix/bin/";
+         }
+-        push @make_install_cmds, "cd $root_dir/build/$opm_dir && "
+-             . "$root_dir/build/install bin/* $target_dir";
++        push @make_install_cmds, "cd $root_dir/$out_dir/$opm_dir && "
++             . "$root_dir/$out_dir/install bin/* $target_dir";
+     }
+ 
+     # configure resty-cli:
+@@ -1160,8 +1166,8 @@ _EOC_
+         } else {
+             $target_dir = "\$(DESTDIR)$prefix/bin/";
+         }
+-        push @make_install_cmds, "cd $root_dir/build/$resty_cli_dir && "
+-             . "$root_dir/build/install bin/* $target_dir";
++        push @make_install_cmds, "cd $root_dir/$out_dir/$resty_cli_dir && "
++             . "$root_dir/$out_dir/install bin/* $target_dir";
+ 
+         if ($platform ne 'msys') {
+             # patch the resty script:
+@@ -1169,7 +1175,7 @@ _EOC_
+             print "patching the resty script with hard-coded nginx binary ",
+                   "path...\n";
+ 
+-            my $resty_bin = "$root_dir/build/$resty_cli_dir/bin/resty";
++            my $resty_bin = "$root_dir/$out_dir/$resty_cli_dir/bin/resty";
+             open my $in, $resty_bin
+                 or die "Cannot open $resty_bin for reading: $!\n";
+             my ($new, $found);
+@@ -1199,8 +1205,8 @@ _EOC_
+     # configure restydoc indexes
+ 
+     push @make_install_cmds,
+-        "cp $root_dir/build/resty.index \$(DESTDIR)$prefix/",
+-        "cp -r $root_dir/build/pod \$(DESTDIR)$prefix/";
++        "cp $root_dir/$out_dir/resty.index \$(DESTDIR)$prefix/",
++        "cp -r $root_dir/$out_dir/pod \$(DESTDIR)$prefix/";
+ 
+     # prepare nginx configure line
+ 
+@@ -1244,9 +1250,9 @@ sub add_lua_lib ($$$) {
+ 
+         my $extra_opts =
+         " DESTDIR=\$(DESTDIR) LUA_LIB_DIR=$lualib_prefix"
+-        ." INSTALL=$root_dir/build/install";
++        ." INSTALL=$root_dir/$out_dir/install";
+ 
+-        push @make_install_cmds, "cd $root_dir/build/$dir && " .
++        push @make_install_cmds, "cd $root_dir/$out_dir/$dir && " .
+         "\$(MAKE) install$extra_opts";
+     }
+ }
+@@ -1256,6 +1262,8 @@ sub usage ($) {
+     my $msg = <<'_EOC_';
+   --help                             this message
+ 
++  --out-dir=DIR                      set the make output dir
++
+   --prefix=PATH                      set the installation prefix (default to /usr/local/openresty)
+ 
+   --with-debug                       enable debug logging
+@@ -1538,13 +1546,13 @@ _EOC_
+ }
+ 
+ sub gen_makefile {
+-    if (-f 'Makefile') {
+-        unlink 'Makefile' or
+-            die "ERROR: failed to remove existing Makefile: $!\n";
++    if (-f "Makefile-$out_dir") {
++	unlink "Makefile-$out_dir" or
++	    die "ERROR: failed to remove existing Makefile-$out_dir: $!\n";
+     }
+ 
+-    open my $out, ">Makefile" or
+-        die "Cannot open Makefile for writing: $!\n";
++    open my $out, ">Makefile-$out_dir" or
++        die "Cannot open Makefile-$out_dir for writing: $!\n";
+ 
+     for my $line (@extra_make_env) {
+         print $out "export $line\n";
+@@ -1561,7 +1569,7 @@ sub gen_makefile {
+ 
+     print $out "install: all\n\t" . join("\n\t", @make_install_cmds) . "\n\n";
+ 
+-    print $out "clean:\n\trm -rf build *.exe *.dll openresty-*\n";
++    print $out "clean:\n\trm -rf $out_dir *.exe *.dll openresty-*\n";
+ 
+     close $out;
+ }
+-- 
+2.27.0
+
diff --git a/0002-add-riscv-support-not-upstream-modified-files.patch b/0002-add-riscv-support-not-upstream-modified-files.patch
new file mode 100644
index 0000000..05e842e
--- /dev/null
+++ b/0002-add-riscv-support-not-upstream-modified-files.patch
@@ -0,0 +1,813 @@
+From: gns <infiwang@proton.me>
+From: Jingwiw <wangjingwei@iscas.ac.cn>
+Subject: [PATCH] riscv64: add initial support for riscv64
+
+Add RISC-V 64 (rv64g) platform support with lp64d ABI to LuaJIT (not upstreamed yet).
+Part1: modified files
+
+diff --git a/bundle/LuaJIT-2.1-20220411/Makefile b/bundle/LuaJIT-2.1-20220411/Makefile
+index 6fb8efa..c81a448 100644
+--- a/bundle/LuaJIT-2.1-20220411/Makefile
++++ b/bundle/LuaJIT-2.1-20220411/Makefile
+@@ -86,6 +86,7 @@ FILE_MAN= luajit.1
+ FILE_PC= luajit.pc
+ FILES_INC= lua.h lualib.h lauxlib.h luaconf.h lua.hpp luajit.h
+ FILES_JITLIB= bc.lua bcsave.lua dump.lua p.lua v.lua zone.lua \
++	      dis_riscv.lua dis_riscv64.lua \
+ 	      dis_x86.lua dis_x64.lua dis_arm.lua dis_arm64.lua \
+ 	      dis_arm64be.lua dis_ppc.lua dis_mips.lua dis_mipsel.lua \
+ 	      dis_mips64.lua dis_mips64el.lua vmdef.lua
+diff --git a/bundle/LuaJIT-2.1-20220411/src/Makefile b/bundle/LuaJIT-2.1-20220411/src/Makefile
+index 68a9a7c..e1b7464 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/Makefile
++++ b/bundle/LuaJIT-2.1-20220411/src/Makefile
+@@ -53,6 +53,7 @@ CCOPT_arm=
+ CCOPT_arm64=
+ CCOPT_ppc=
+ CCOPT_mips=
++CCOPT_riscv64=
+ #
+ #CCDEBUG=
+ # Uncomment the next line to generate debug information:
+@@ -270,6 +271,12 @@ ifneq (,$(findstring LJ_TARGET_MIPS ,$(TARGET_TESTARCH)))
+   else
+     TARGET_LJARCH= mips
+   endif
++else
++ifneq (,$(findstring LJ_TARGET_RISCV32 ,$(TARGET_TESTARCH)))
++    TARGET_LJARCH= riscv32
++else
++ifneq (,$(findstring LJ_TARGET_RISCV64 ,$(TARGET_TESTARCH)))
++    TARGET_LJARCH= riscv64
+ else
+   $(error Unsupported target architecture)
+ endif
+@@ -279,6 +286,8 @@ endif
+ endif
+ endif
+ endif
++endif
++endif
+ 
+ ifneq (,$(findstring LJ_TARGET_PS3 1,$(TARGET_TESTARCH)))
+   TARGET_SYS= PS3
+@@ -454,6 +463,12 @@ else
+ ifneq (,$(findstring LJ_TARGET_MIPSR6 ,$(TARGET_TESTARCH)))
+   DASM_AFLAGS+= -D MIPSR6
+ endif
++ifneq (,$(findstring LJ_TARGET_RISCV32 ,$(TARGET_TESTARCH)))
++  DASM_AFLAGS+= -D RISCV32
++endif
++ifneq (,$(findstring LJ_TARGET_RISCV64 ,$(TARGET_TESTARCH)))
++  DASM_AFLAGS+= -D RISCV64
++endif
+ ifeq (ppc,$(TARGET_LJARCH))
+   ifneq (,$(findstring LJ_ARCH_SQRT 1,$(TARGET_TESTARCH)))
+     DASM_AFLAGS+= -D SQRT
+diff --git a/bundle/LuaJIT-2.1-20220411/src/host/buildvm.c b/bundle/LuaJIT-2.1-20220411/src/host/buildvm.c
+index 4efda1b..def4a92 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/host/buildvm.c
++++ b/bundle/LuaJIT-2.1-20220411/src/host/buildvm.c
+@@ -67,6 +67,8 @@ static int collect_reloc(BuildCtx *ctx, uint8_t *addr, int idx, int type);
+ #include "../dynasm/dasm_mips.h"
+ #elif LJ_TARGET_S390X
+ #include "../dynasm/dasm_s390x.h"
++#elif LJ_TARGET_RISCV32 || LJ_TARGET_RISCV64
++#include "../dynasm/dasm_riscv.h"
+ #else
+ #error "No support for this architecture (yet)"
+ #endif
+diff --git a/bundle/LuaJIT-2.1-20220411/src/host/buildvm_asm.c b/bundle/LuaJIT-2.1-20220411/src/host/buildvm_asm.c
+index e73f9b1..0a187d5 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/host/buildvm_asm.c
++++ b/bundle/LuaJIT-2.1-20220411/src/host/buildvm_asm.c
+@@ -208,6 +208,15 @@ static void emit_asm_wordreloc(BuildCtx *ctx, uint8_t *p, int n,
+ 	  "Error: unsupported opcode %08x for %s symbol relocation.\n",
+ 	  ins, sym);
+   exit(1);
++#elif LJ_TARGET_RISCV32 || LJ_TARGET_RISCV64
++  if ((ins & 0x7f) == 0x6fu) {
++    fprintf(ctx->fp, "\tjal %s\n", sym);
++  } else {
++    fprintf(stderr,
++  	    "Error: unsupported opcode %08x for %s symbol relocation.\n",
++  	    ins, sym);
++    exit(1);
++  }
+ #else
+ #error "missing relocation support for this architecture"
+ #endif
+@@ -327,6 +336,9 @@ void emit_asm(BuildCtx *ctx)
+ #if LJ_TARGET_MIPS
+   fprintf(ctx->fp, ".set nomips16\n.abicalls\n.set noreorder\n.set nomacro\n");
+ #endif
++#if LJ_TARGET_RISCV64
++  fprintf(ctx->fp, ".option arch, -c\n.option norelax\n");
++#endif
+ 
+   for (i = rel = 0; i < ctx->nsym; i++) {
+     int32_t ofs = ctx->sym[i].ofs;
+diff --git a/bundle/LuaJIT-2.1-20220411/src/jit/bcsave.lua b/bundle/LuaJIT-2.1-20220411/src/jit/bcsave.lua
+index 7cb23f1..c5e22f6 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/jit/bcsave.lua
++++ b/bundle/LuaJIT-2.1-20220411/src/jit/bcsave.lua
+@@ -85,6 +85,7 @@ local map_arch = {
+   mips64el =	{ e = "le", b = 64, m = 8, f = 0x80000007, },
+   mips64r6 =	{ e = "be", b = 64, m = 8, f = 0xa0000407, },
+   mips64r6el =	{ e = "le", b = 64, m = 8, f = 0xa0000407, },
++  riscv64 =    { e = "le", b = 64, m = 243, f = 0x00000004, },
+ }
+ 
+ local map_os = {
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lib_jit.c b/bundle/LuaJIT-2.1-20220411/src/lib_jit.c
+index 50c2b13..11748a4 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lib_jit.c
++++ b/bundle/LuaJIT-2.1-20220411/src/lib_jit.c
+@@ -714,6 +714,75 @@ JIT_PARAMDEF(JIT_PARAMINIT)
+ #include <sys/utsname.h>
+ #endif
+ 
++#if LJ_TARGET_RISCV64
++#include <setjmp.h>
++#include <signal.h>
++static sigjmp_buf sigbuf = {0};
++static void detect_sigill(int sig)
++{
++  siglongjmp(sigbuf, 1);
++}
++
++static int riscv_compressed()
++{
++#if defined(__riscv_compressed)
++  // Don't bother checking for RVC -- would crash before getting here.
++  return 1;
++#elif defined(__GNUC__)
++  // c.nop; c.nop;
++  __asm__(".4byte 0x00010001");
++  return 1;
++#else
++  return 0;
++#endif
++}
++
++static int riscv_zba()
++{
++#if defined(__GNUC__)
++  // Don't bother verifying the result, just check if the instruction exists.
++  // add.uw zero, zero, zero
++  __asm__(".4byte 0x0800003b");
++  return 1;
++#else
++  return 0;
++#endif
++}
++
++static int riscv_zbb()
++{
++#if defined(__GNUC__)
++  register int t asm ("a0");
++  // addi a0, zero, 255; sext.b a0, a0;
++  __asm__("addi a0, zero, 255\n\t.4byte 0x60451513");
++  return t < 0;
++#else
++  return 0;
++#endif
++}
++
++static int riscv_xthead()
++{
++#if defined(__GNUC__)
++    register int t asm ("a0");
++    // C906 & C910 & C908 all have "xtheadc", XTheadBb subset "xtheadc".
++    // Therefore assume XThead* are present if XTheadBb is present.
++    // addi a0, zero, 255; th.ext a0, a0, 7, 0;
++    __asm__("addi a0, zero, 255\n\t.4byte 0x1c05250b");
++    return t == -1;		// In case of collision with other vendor extensions.
++#else
++    return 0;
++#endif
++}
++
++static uint32_t riscv_probe(int (*func)(void), uint32_t flag)
++{
++    if (sigsetjmp(sigbuf, 1) == 0) {
++        return func() ? flag : 0;
++    } else return 0;
++}
++#endif
++
+ /* Arch-dependent CPU feature detection. */
+ static uint32_t jit_cpudetect(void)
+ {
+@@ -786,6 +855,21 @@ static uint32_t jit_cpudetect(void)
+ #endif
+ #elif LJ_TARGET_S390X
+   /* No optional CPU features to detect (for now). */
++#elif LJ_TARGET_RISCV64
++#if LJ_HASJIT
++  // SIGILL-based detection of RVC, Zba, Zbb and XThead. Welcome to the future.
++  struct sigaction old = {0}, act = {0};
++  act.sa_handler = detect_sigill;
++  sigaction(SIGILL, &act, &old);
++  flags |= riscv_probe(riscv_compressed, JIT_F_RVC);
++  flags |= riscv_probe(riscv_zba, JIT_F_RVZba);
++  flags |= riscv_probe(riscv_zbb, JIT_F_RVZbb);
++  flags |= riscv_probe(riscv_xthead, JIT_F_RVXThead);
++  sigaction(SIGILL, &old, NULL);
++
++  // Detect V/P?
++  // V have no hardware available, P not ratified yet.
++#endif
+ #else
+ #error "Missing CPU detection for this architecture"
+ #endif
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_arch.h b/bundle/LuaJIT-2.1-20220411/src/lj_arch.h
+index 9f7047d..3490af4 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_arch.h
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_arch.h
+@@ -33,6 +33,10 @@
+ #define LUAJIT_ARCH_mips64	7
+ #define LUAJIT_ARCH_S390X	8
+ #define LUAJIT_ARCH_s390x	8
++#define LUAJIT_ARCH_RISCV32	9
++#define LUAJIT_ARCH_riscv32	9
++#define LUAJIT_ARCH_RISCV64	10
++#define LUAJIT_ARCH_riscv64	10
+ 
+ /* Target OS. */
+ #define LUAJIT_OS_OTHER		0
+@@ -69,6 +73,10 @@
+ #define LUAJIT_TARGET	LUAJIT_ARCH_MIPS64
+ #elif defined(__mips__) || defined(__mips) || defined(__MIPS__) || defined(__MIPS)
+ #define LUAJIT_TARGET	LUAJIT_ARCH_MIPS32
++#elif defined(__riscv) && __riscv_xlen == 32
++#define LUAJIT_TARGET LUAJIT_ARCH_RISCV32
++#elif defined(__riscv) && __riscv_xlen == 64
++#define LUAJIT_TARGET LUAJIT_ARCH_RISCV64
+ #else
+ #error "No support for this architecture (yet)"
+ #endif
+@@ -451,6 +459,32 @@
+ #define LJ_TARGET_GC64		1
+ #define LJ_ARCH_NOJIT		1	/* NYI */
+ 
++#elif LUAJIT_TARGET == LUAJIT_ARCH_RISCV32
++#error "No support for RISC-V 32"
++
++#elif LUAJIT_TARGET == LUAJIT_ARCH_RISCV64
++#if defined(__riscv_float_abi_double)
++
++#define LJ_ARCH_NAME		"riscv64"
++#define LJ_ARCH_BITS		64
++#define LJ_ARCH_ENDIAN		LUAJIT_LE	/* Forget about BE for now */
++#define LJ_TARGET_RISCV64	1
++#define LJ_TARGET_GC64		1
++#define LJ_TARGET_EHRETREG	0 // TODO
++#define LJ_TARGET_EHRAREG	1
++#define LJ_TARGET_JUMPRANGE	30	/* JAL +-2^20 = +-1MB,\
++        AUIPC+JALR +-2^31 = +-2GB, leave 1 bit to avoid AUIPC corner case */
++#define LJ_TARGET_MASKSHIFT	1
++#define LJ_TARGET_MASKROT	1
++#define LJ_TARGET_UNIFYROT	2	/* Want only IR_BROR, no ROLI */
++#define LJ_ARCH_NUMMODE		LJ_NUMMODE_DUAL
++// for now
++#define LUAJIT_NO_UNWIND	1
++
++#else
++#error "No support for RISC-V 64 Soft-float/Single-float"
++#endif
++
+ #else
+ #error "No target architecture defined"
+ #endif
+@@ -525,6 +559,13 @@
+ /* MIPS32ON64 aka n32 ABI support might be desirable, but difficult. */
+ #error "Only n64 ABI supported for MIPS64"
+ #endif
++#elif LJ_TARGET_RISCV
++#if !defined(__riscv_float_abi_double)
++#error "Only RISC-V 64 double float supported for now"
++#endif
++#if defined(__riscv_compressed)
++#error "Compressed instructions not supported for now"
++#endif
+ #endif
+ #endif
+ 
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_asm.c b/bundle/LuaJIT-2.1-20220411/src/lj_asm.c
+index d811808..4deca17 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_asm.c
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_asm.c
+@@ -185,6 +185,8 @@ IRFLDEF(FLOFS)
+ #include "lj_emit_ppc.h"
+ #elif LJ_TARGET_MIPS
+ #include "lj_emit_mips.h"
++#elif LJ_TARGET_RISCV64
++#include "lj_emit_riscv.h"
+ #else
+ #error "Missing instruction emitter for target CPU"
+ #endif
+@@ -1664,6 +1666,8 @@ static void asm_loop(ASMState *as)
+ #include "lj_asm_mips.h"
+ #elif LJ_TARGET_S390X
+ #include "lj_asm_s390x.h"
++#elif LJ_TARGET_RISCV64
++#include "lj_asm_riscv64.h"
+ #else
+ #error "Missing assembler for target CPU"
+ #endif
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_ccall.c b/bundle/LuaJIT-2.1-20220411/src/lj_ccall.c
+index 8162b95..96bc3b8 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_ccall.c
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_ccall.c
+@@ -686,6 +686,97 @@
+     if (ngpr < maxgpr) { dp = &cc->gpr[ngpr++]; goto done; } \
+   }
+ 
++#elif LJ_TARGET_RISCV64
++/* -- RISC-V lp64d calling conventions ------------------------------------ */
++
++#define CCALL_HANDLE_STRUCTRET \
++  /* Return structs of size > 16 by reference. */ \
++  cc->retref = !(sz <= 16); \
++  if (cc->retref) cc->gpr[ngpr++] = (GPRArg)dp;
++
++#define CCALL_HANDLE_STRUCTRET2 \
++  unsigned int cl = ccall_classify_struct(cts, ctr); \
++  if ((cl & 4) && (cl >> 8) <= 2) { \
++    CTSize i = (cl >> 8) - 1; \
++    do { ((float *)dp)[i] = cc->fpr[i].f; } while (i--); \
++  } else { \
++    if (cl > 1) { \
++      sp = (uint8_t *)&cc->fpr[0]; \
++      if ((cl >> 8) > 2) \
++        sp = (uint8_t *)&cc->gpr[0]; \
++    } \
++      memcpy(dp, sp, ctr->size); \
++  } \
++
++#define CCALL_HANDLE_COMPLEXRET \
++  /* Complex values are returned in 1 or 2 FPRs. */ \
++  cc->retref = 0;
++
++#define CCALL_HANDLE_COMPLEXRET2 \
++  if (ctr->size == 2*sizeof(float)) {  /* Copy complex float from FPRs. */ \
++    ((float *)dp)[0] = cc->fpr[0].f; \
++    ((float *)dp)[1] = cc->fpr[1].f; \
++  } else {  /* Copy complex double from FPRs. */ \
++    ((double *)dp)[0] = cc->fpr[0].d; \
++    ((double *)dp)[1] = cc->fpr[1].d; \
++  }
++
++#define CCALL_HANDLE_COMPLEXARG \
++  /* Pass long double complex by reference. */ \
++  if (sz == 2*sizeof(long double)) { \
++    rp = cdataptr(lj_cdata_new(cts, did, sz)); \
++    sz = CTSIZE_PTR; \
++  } \
++  /* Pass complex in two FPRs or on stack. */ \
++  else if (sz == 2*sizeof(float)) { \
++    isfp = 2; \
++    sz = 2*CTSIZE_PTR; \
++  } else { \
++    isfp = 1; \
++    sz = 2*CTSIZE_PTR; \
++  }
++
++#define CCALL_HANDLE_RET \
++  if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
++    sp = (uint8_t *)&cc->fpr[0].f;
++
++#define CCALL_HANDLE_STRUCTARG \
++  /* Pass structs of size >16 by reference. */ \
++  unsigned int cl = ccall_classify_struct(cts, d); \
++  nff = cl >> 8; \
++  if (sz > 16) { \
++    rp = cdataptr(lj_cdata_new(cts, did, sz)); \
++    sz = CTSIZE_PTR; \
++  } \
++  /* Pass struct in FPRs. */ \
++  if (cl > 1) { \
++    isfp = (cl & 4) ? 2 : 1; \
++  }
++
++
++#define CCALL_HANDLE_REGARG \
++  if (isfp && (!isva)) {  /* Try to pass argument in FPRs. */ \
++    int n2 = ctype_isvector(d->info) ? 1 : \
++            isfp == 1 ? n : 2; \
++    if (nfpr + n2 <= CCALL_NARG_FPR && nff <= 2) { \
++      dp = &cc->fpr[nfpr]; \
++      nfpr += n2; \
++      goto done; \
++    } else { \
++      if (ngpr + n2 <= maxgpr) { \
++       dp = &cc->gpr[ngpr]; \
++       ngpr += n2; \
++       goto done; \
++      } \
++    } \
++  } else {  /* Try to pass argument in GPRs. */ \
++      if (ngpr + n <= maxgpr) { \
++        dp = &cc->gpr[ngpr]; \
++        ngpr += n; \
++        goto done; \
++    } \
++  }
++
+ #else
+ #error "Missing calling convention definitions for this architecture"
+ #endif
+@@ -1045,6 +1136,51 @@ static void ccall_copy_struct(CCallState *cc, CType *ctr, void *dp, void *sp,
+ 
+ #endif
+ 
++/* -- RISC-V ABI struct classification ---------------------------- */
++
++#if LJ_TARGET_RISCV64
++
++static unsigned int ccall_classify_struct(CTState *cts, CType *ct)
++{
++  CTSize sz = ct->size;
++  unsigned int r = 0, n = 0, isu = (ct->info & CTF_UNION);
++  while (ct->sib) {
++    CType *sct;
++    ct = ctype_get(cts, ct->sib);
++    if (ctype_isfield(ct->info)) {
++      sct = ctype_rawchild(cts, ct);
++      if (ctype_isfp(sct->info)) {
++	r |= sct->size;
++	if (!isu) n++; else if (n == 0) n = 1;
++      } else if (ctype_iscomplex(sct->info)) {
++	r |= (sct->size >> 1);
++	if (!isu) n += 2; else if (n < 2) n = 2;
++      } else if (ctype_isstruct(sct->info)) {
++	goto substruct;
++      } else {
++	goto noth;
++      }
++    } else if (ctype_isbitfield(ct->info)) {
++      goto noth;
++    } else if (ctype_isxattrib(ct->info, CTA_SUBTYPE)) {
++      sct = ctype_rawchild(cts, ct);
++    substruct:
++      if (sct->size > 0) {
++	unsigned int s = ccall_classify_struct(cts, sct);
++	if (s <= 1) goto noth;
++	r |= (s & 255);
++	if (!isu) n += (s >> 8); else if (n < (s >>8)) n = (s >> 8);
++      }
++    }
++  }
++  if ((r == 4 || r == 8) && n <= 4)
++    return r + (n << 8);
++noth:  /* Not a homogeneous float/double aggregate. */
++  return (sz <= 16);  /* Return structs of size <= 16 in GPRs. */
++}
++
++#endif
++
+ /* -- Common C call handling ---------------------------------------------- */
+ 
+ /* Infer the destination CTypeID for a vararg argument. */
+@@ -1091,6 +1227,10 @@ static int ccall_set_args(lua_State *L, CTState *cts, CType *ct,
+ #endif
+ #endif
+ 
++#if LJ_TARGET_RISCV64
++  int nff = 0;
++#endif
++
+   /* Clear unused regs to get some determinism in case of misdeclaration. */
+   memset(cc->gpr, 0, sizeof(cc->gpr));
+ #if CCALL_NUM_FPR
+@@ -1265,7 +1405,11 @@ static int ccall_set_args(lua_State *L, CTState *cts, CType *ct,
+         *(int64_t *)dp = (int64_t)*(int32_t *)dp;
+     }
+ #endif
+-#if LJ_TARGET_MIPS64 || (LJ_TARGET_ARM64 && LJ_BE)
++#if LJ_TARGET_RISCV64
++    if (isfp && d->size == sizeof(float))
++      ((uint32_t *)dp)[1] = 0xffffffffu;  /* Float NaN boxing */
++#endif
++#if LJ_TARGET_MIPS64 || (LJ_TARGET_ARM64 && LJ_BE) || LJ_TARGET_RISCV64
+     if ((ctype_isinteger_or_bool(d->info) || ctype_isenum(d->info)
+ #if LJ_TARGET_MIPS64
+ 	 || (isfp && nsp == 0)
+@@ -1305,13 +1449,21 @@ static int ccall_set_args(lua_State *L, CTState *cts, CType *ct,
+       CTSize i = (sz >> 2) - 1;
+       do { ((uint64_t *)dp)[i] = ((uint32_t *)dp)[i]; } while (i--);
+     }
++#elif LJ_TARGET_RISCV64
++    if (isfp == 2 && nff <= 2) {
++      /* Split complex float into separate registers. */
++      CTSize i = (sz >> 2) - 1;
++      do {
++        ((uint64_t *)dp)[i] = 0xffffffff00000000ul | ((uint32_t *)dp)[i];
++      } while (i--);
++    }
+ #else
+     UNUSED(isfp);
+ #endif
+   }
+   if (fid) lj_err_caller(L, LJ_ERR_FFI_NUMARG);  /* Too few arguments. */
+ 
+-#if LJ_TARGET_X64 || (LJ_TARGET_PPC && !LJ_ABI_SOFTFP)
++#if LJ_TARGET_X64 || (LJ_TARGET_PPC && !LJ_ABI_SOFTFP) || LJ_TARGET_RISCV64
+   cc->nfpr = nfpr;  /* Required for vararg functions. */
+ #endif
+   cc->nsp = nsp;
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_ccall.h b/bundle/LuaJIT-2.1-20220411/src/lj_ccall.h
+index 5245553..29985ff 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_ccall.h
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_ccall.h
+@@ -154,6 +154,21 @@ typedef union FPRArg {
+   float f;
+ } FPRArg;
+ 
++#elif LJ_TARGET_RISCV64
++
++#define CCALL_NARG_GPR		8
++#define CCALL_NARG_FPR		8
++#define CCALL_NRET_GPR		2
++#define CCALL_NRET_FPR		2
++#define CCALL_SPS_EXTRA		3
++#define CCALL_SPS_FREE		1
++
++typedef intptr_t GPRArg;
++typedef union FPRArg {
++  double d;
++  struct { LJ_ENDIAN_LOHI(float f; , float g;) };
++} FPRArg;
++
+ #else
+ #error "Missing calling convention definitions for this architecture"
+ #endif
+@@ -196,7 +211,7 @@ typedef LJ_ALIGN(CCALL_ALIGN_CALLSTATE) struct CCallState {
+   uint8_t resx87;		/* Result on x87 stack: 1:float, 2:double. */
+ #elif LJ_TARGET_ARM64
+   void *retp;			/* Aggregate return pointer in x8. */
+-#elif LJ_TARGET_PPC
++#elif LJ_TARGET_PPC || LJ_TARGET_RISCV64
+   uint8_t nfpr;			/* Number of arguments in FPRs. */
+ #endif
+ #if LJ_32
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_ccallback.c b/bundle/LuaJIT-2.1-20220411/src/lj_ccallback.c
+index c1e67ab..0c3d80c 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_ccallback.c
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_ccallback.c
+@@ -91,6 +91,10 @@ static MSize CALLBACK_OFS2SLOT(MSize ofs)
+ 
+ #define CALLBACK_MCODE_HEAD		52
+ 
++#elif LJ_TARGET_RISCV64
++
++#define CALLBACK_MCODE_HEAD		68
++
+ #else
+ 
+ /* Missing support for this architecture. */
+@@ -293,6 +297,39 @@ static void *callback_mcode_init(global_State *g, uint32_t *page)
+   }
+   return p;
+ }
++#elif LJ_TARGET_RISCV64
++static void *callback_mcode_init(global_State *g, uint32_t *page)
++{
++  uint32_t *p = page;
++  uintptr_t target = (uintptr_t)(void *)lj_vm_ffi_callback;
++  uintptr_t ug = (uintptr_t)(void *)g;
++  uintptr_t target_hi = (target >> 32), target_lo = target & 0xffffffffULL;
++  uintptr_t ug_hi = (ug >> 32), ug_lo = ug & 0xffffffffULL;
++  MSize slot;
++  *p++ = RISCVI_LUI  | RISCVF_D(RID_X6) | RISCVF_IMMU(RISCVF_HI(target_hi));
++  *p++ = RISCVI_LUI  | RISCVF_D(RID_X7) | RISCVF_IMMU(RISCVF_HI(ug_hi));
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_IMMI(RISCVF_LO(target_hi));
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_IMMI(RISCVF_LO(ug_hi));
++  *p++ = RISCVI_SLLI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_SHAMT(11);
++  *p++ = RISCVI_SLLI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_SHAMT(11);
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_IMMI(target_lo >> 21);
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_IMMI(ug_lo >> 21);
++  *p++ = RISCVI_SLLI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_SHAMT(11);
++  *p++ = RISCVI_SLLI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_SHAMT(11);
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_IMMI((target_lo >> 10) & 0x7ff);
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_IMMI((ug_lo >> 10) & 0x7ff);
++  *p++ = RISCVI_SLLI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_SHAMT(10);
++  *p++ = RISCVI_SLLI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_SHAMT(10);
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X6) | RISCVF_S1(RID_X6) | RISCVF_IMMI(target_lo & 0x3ff);
++  *p++ = RISCVI_ADDI | RISCVF_D(RID_X7) | RISCVF_S1(RID_X7) | RISCVF_IMMI(ug_lo & 0x3ff);
++  *p++ = RISCVI_JALR | RISCVF_D(RID_X0) | RISCVF_S1(RID_X6) | RISCVF_IMMJ(0);
++  for (slot = 0; slot < CALLBACK_MAX_SLOT; slot++) {
++    *p++ = RISCVI_LUI | RISCVF_D(RID_X5) | RISCVF_IMMU(slot);
++    *p = RISCVI_JAL | RISCVF_IMMJ(((char *)page-(char *)p));
++    p++;
++  }
++  return p;
++}
+ #else
+ /* Missing support for this architecture. */
+ #define callback_mcode_init(g, p)	(p)
+@@ -567,6 +604,31 @@ void lj_ccallback_mcode_free(CTState *cts)
+   }
+ #endif
+ 
++#define CALLBACK_HANDLE_RET \
++  if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
++    ((float *)dp)[1] = *(float *)dp;
++
++#elif LJ_TARGET_RISCV64
++
++#define CALLBACK_HANDLE_REGARG \
++  if (isfp) { \
++    if (nfpr + n <= CCALL_NARG_FPR) { \
++      sp = &cts->cb.fpr[nfpr]; \
++      nfpr += n; \
++      goto done; \
++    } else if (ngpr + n <= maxgpr) { \
++      sp = &cts->cb.gpr[ngpr]; \
++      ngpr += n; \
++      goto done; \
++    } \
++  } else { \
++    if (ngpr + n <= maxgpr) { \
++      sp = &cts->cb.gpr[ngpr]; \
++      ngpr += n; \
++      goto done; \
++    } \
++  }
++
+ #define CALLBACK_HANDLE_RET \
+   if (ctype_isfp(ctr->info) && ctr->size == sizeof(float)) \
+     ((float *)dp)[1] = *(float *)dp;
+@@ -735,7 +797,7 @@ static void callback_conv_result(CTState *cts, lua_State *L, TValue *o)
+         *(int64_t *)dp = (int64_t)*(int32_t *)dp;
+     }
+ #endif
+-#if LJ_TARGET_MIPS64 || (LJ_TARGET_ARM64 && LJ_BE)
++#if LJ_TARGET_MIPS64 || (LJ_TARGET_ARM64 && LJ_BE) || LJ_TARGET_RISCV64
+     /* Always sign-extend results to 64 bits. Even a soft-fp 'float'. */
+     if (ctr->size <= 4 &&
+ 	(LJ_ABI_SOFTFP || ctype_isinteger_or_bool(ctr->info)))
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.c b/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.c
+index ded382a..32688a0 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.c
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.c
+@@ -56,6 +56,15 @@ static const ASMFunction dispatch_got[] = {
+ #undef GOTFUNC
+ #endif
+ 
++#if LJ_TARGET_RISCV64
++#include <math.h>
++#define GOTFUNC(name)	(ASMFunction)name,
++static const ASMFunction dispatch_got[] = {
++  GOTDEF(GOTFUNC)
++};
++#undef GOTFUNC
++#endif
++
+ /* Initialize instruction dispatch table and hot counters. */
+ void lj_dispatch_init(GG_State *GG)
+ {
+@@ -76,7 +85,7 @@ void lj_dispatch_init(GG_State *GG)
+   GG->g.bc_cfunc_ext = GG->g.bc_cfunc_int = BCINS_AD(BC_FUNCC, LUA_MINSTACK, 0);
+   for (i = 0; i < GG_NUM_ASMFF; i++)
+     GG->bcff[i] = BCINS_AD(BC__MAX+i, 0, 0);
+-#if LJ_TARGET_MIPS
++#if LJ_TARGET_MIPS || LJ_TARGET_RISCV64
+   memcpy(GG->got, dispatch_got, LJ_GOT__MAX*sizeof(ASMFunction *));
+ #endif
+ }
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.h b/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.h
+index 0594af5..37407f4 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.h
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_dispatch.h
+@@ -66,6 +66,35 @@ GOTDEF(GOTENUM)
+ };
+ #endif
+ 
++#if LJ_TARGET_RISCV64
++/* Need our own global offset table to wrap RISC-V PIC intern / extern calls */
++
++#if LJ_HASJIT
++#define JITGOTDEF(_)	_(lj_err_trace) _(lj_trace_exit) _(lj_trace_hot)
++#else
++#define JITGOTDEF(_)
++#endif
++#if LJ_HASFFI
++#define FFIGOTDEF(_) \
++  _(lj_meta_equal_cd) _(lj_ccallback_enter) _(lj_ccallback_leave)
++#else
++#define FFIGOTDEF(_)
++#endif
++
++#define GOTDEF(_) \
++  _(floor) _(ceil) _(trunc) _(log) _(log10) _(exp) _(sin) _(cos) _(tan) \
++  _(asin) _(acos) _(atan) _(sinh) _(cosh) _(tanh) _(frexp) _(modf) _(atan2) \
++  _(pow) _(fmod) _(ldexp) \
++  JITGOTDEF(_) FFIGOTDEF(_)
++
++enum {
++#define GOTENUM(name) LJ_GOT_##name,
++GOTDEF(GOTENUM)
++#undef GOTENUM
++  LJ_GOT__MAX
++};
++#endif
++
+ /* Type of hot counter. Must match the code in the assembler VM. */
+ /* 16 bits are sufficient. Only 0.0015% overhead with maximum slot penalty. */
+ typedef uint16_t HotCount;
+@@ -93,7 +122,7 @@ typedef struct GG_State {
+   /* Make g reachable via K12 encoded DISPATCH-relative addressing. */
+   uint8_t align1[(16-sizeof(global_State))&15];
+ #endif
+-#if LJ_TARGET_MIPS
++#if LJ_TARGET_MIPS || LJ_TARGET_RISCV64
+   ASMFunction got[LJ_GOT__MAX];		/* Global offset table. */
+ #endif
+ #if LJ_HASJIT
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_frame.h b/bundle/LuaJIT-2.1-20220411/src/lj_frame.h
+index 4058311..26b8081 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_frame.h
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_frame.h
+@@ -287,6 +287,15 @@ enum { LJ_CONT_TAILCALL, LJ_CONT_FFI_CALLBACK };  /* Special continuations. */
+ ** need to change to 3.
+ */
+ #define CFRAME_SHIFT_MULTRES	0
++#elif LJ_TARGET_RISCV64
++#define CFRAME_OFS_ERRF		252
++#define CFRAME_OFS_NRES		248
++#define CFRAME_OFS_PREV		240
++#define CFRAME_OFS_L		232
++#define CFRAME_OFS_PC		224
++#define CFRAME_OFS_MULTRES	0
++#define CFRAME_SIZE		256
++#define CFRAME_SHIFT_MULTRES	3
+ #else
+ #error "Missing CFRAME_* definitions for this architecture"
+ #endif
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_jit.h b/bundle/LuaJIT-2.1-20220411/src/lj_jit.h
+index 74b40fd..23d027b 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_jit.h
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_jit.h
+@@ -67,6 +67,15 @@
+ #endif
+ #endif
+ 
++#elif LJ_TARGET_RISCV64
++
++#define JIT_F_RVC		(JIT_F_CPU << 0)
++#define JIT_F_RVZba		(JIT_F_CPU << 1)
++#define JIT_F_RVZbb		(JIT_F_CPU << 2)
++#define JIT_F_RVXThead		(JIT_F_CPU << 3)
++
++#define JIT_F_CPUSTRING		"\003RVC\003Zba\003Zbb\006XThead"
++
+ #else
+ 
+ #define JIT_F_CPUSTRING		""
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_target.h b/bundle/LuaJIT-2.1-20220411/src/lj_target.h
+index 3831cb6..4534567 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_target.h
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_target.h
+@@ -55,7 +55,7 @@ typedef uint32_t RegSP;
+ /* Bitset for registers. 32 registers suffice for most architectures.
+ ** Note that one set holds bits for both GPRs and FPRs.
+ */
+-#if LJ_TARGET_PPC || LJ_TARGET_MIPS || LJ_TARGET_ARM64
++#if LJ_TARGET_PPC || LJ_TARGET_MIPS || LJ_TARGET_ARM64 || LJ_TARGET_RISCV64
+ typedef uint64_t RegSet;
+ #else
+ typedef uint32_t RegSet;
+@@ -69,7 +69,7 @@ typedef uint32_t RegSet;
+ #define rset_set(rs, r)		(rs |= RID2RSET(r))
+ #define rset_clear(rs, r)	(rs &= ~RID2RSET(r))
+ #define rset_exclude(rs, r)	(rs & ~RID2RSET(r))
+-#if LJ_TARGET_PPC || LJ_TARGET_MIPS || LJ_TARGET_ARM64
++#if LJ_TARGET_PPC || LJ_TARGET_MIPS || LJ_TARGET_ARM64 || LJ_TARGET_RISCV64
+ #define rset_picktop(rs)	((Reg)(__builtin_clzll(rs)^63))
+ #define rset_pickbot(rs)	((Reg)__builtin_ctzll(rs))
+ #else
+@@ -146,6 +146,8 @@ typedef uint32_t RegCost;
+ #include "lj_target_mips.h"
+ #elif LJ_TARGET_S390X
+ #include "lj_target_s390x.h"
++#elif LJ_TARGET_RISCV64
++#include "lj_target_riscv.h"
+ #else
+ #error "Missing include for target CPU"
+ #endif
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_vmmath.c b/bundle/LuaJIT-2.1-20220411/src/lj_vmmath.c
+index b6cc60b..2186621 100644
+--- a/bundle/LuaJIT-2.1-20220411/src/lj_vmmath.c
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_vmmath.c
+@@ -58,7 +58,8 @@ double lj_vm_foldarith(double x, double y, int op)
+ 
+ /* -- Helper functions for generated machine code ------------------------- */
+ 
+-#if (LJ_HASJIT && !(LJ_TARGET_ARM || LJ_TARGET_ARM64 || LJ_TARGET_PPC)) || LJ_TARGET_MIPS
++#if (LJ_HASJIT && !(LJ_TARGET_ARM || LJ_TARGET_ARM64 || LJ_TARGET_PPC)) || LJ_TARGET_MIPS \
++ || LJ_TARGET_RISCV64
+ int32_t LJ_FASTCALL lj_vm_modi(int32_t a, int32_t b)
+ {
+   uint32_t y, ua, ub;
diff --git a/0003-add-riscv-support-not-upstream-new-files.patch b/0003-add-riscv-support-not-upstream-new-files.patch
new file mode 100644
index 0000000..b147fbc
--- /dev/null
+++ b/0003-add-riscv-support-not-upstream-new-files.patch
@@ -0,0 +1,9966 @@
+From: gns <infiwang@proton.me>
+From: Jingwiw <wangjingwei@iscas.ac.cn>
+Subject: [PATCH] riscv64: add initial support for riscv64
+
+Add RISC-V 64 (rv64g) platform support with lp64d ABI to LuaJIT (not upstreamed yet).
+Part2: new files
+
+diff --git a/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv.h b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv.h
+new file mode 100644
+index 0000000..4afe064
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv.h
+@@ -0,0 +1,438 @@
++/*
++** DynASM RISC-V encoding engine.
++** Copyright (C) 2005-2022 Mike Pall. All rights reserved.
++** Released under the MIT license. See dynasm.lua for full copyright notice.
++*/
++
++#include <stddef.h>
++#include <stdarg.h>
++#include <string.h>
++#include <stdlib.h>
++
++#define DASM_ARCH		"riscv"
++
++#ifndef DASM_EXTERN
++#define DASM_EXTERN(a,b,c,d)	0
++#endif
++
++/* Action definitions. */
++enum {
++  DASM_STOP, DASM_SECTION, DASM_ESC, DASM_REL_EXT,
++  /* The following actions need a buffer position. */
++  DASM_ALIGN, DASM_REL_LG, DASM_LABEL_LG,
++  /* The following actions also have an argument. */
++  DASM_REL_PC, DASM_LABEL_PC, DASM_IMM, DASM_IMMS,
++  DASM__MAX
++};
++
++/* Maximum number of section buffer positions for a single dasm_put() call. */
++#define DASM_MAXSECPOS		25
++
++/* DynASM encoder status codes. Action list offset or number are or'ed in. */
++#define DASM_S_OK		0x00000000
++#define DASM_S_NOMEM		0x01000000
++#define DASM_S_PHASE		0x02000000
++#define DASM_S_MATCH_SEC	0x03000000
++#define DASM_S_RANGE_I		0x11000000
++#define DASM_S_RANGE_SEC	0x12000000
++#define DASM_S_RANGE_LG		0x13000000
++#define DASM_S_RANGE_PC		0x14000000
++#define DASM_S_RANGE_REL	0x15000000
++#define DASM_S_UNDEF_LG		0x21000000
++#define DASM_S_UNDEF_PC		0x22000000
++
++/* Macros to convert positions (8 bit section + 24 bit index). */
++#define DASM_POS2IDX(pos)	((pos)&0x00ffffff)
++#define DASM_POS2BIAS(pos)	((pos)&0xff000000)
++#define DASM_SEC2POS(sec)	((sec)<<24)
++#define DASM_POS2SEC(pos)	((pos)>>24)
++#define DASM_POS2PTR(D, pos)	(D->sections[DASM_POS2SEC(pos)].rbuf + (pos))
++
++/* Action list type. */
++typedef const unsigned int *dasm_ActList;
++
++/* Per-section structure. */
++typedef struct dasm_Section {
++  int *rbuf;		/* Biased buffer pointer (negative section bias). */
++  int *buf;		/* True buffer pointer. */
++  size_t bsize;		/* Buffer size in bytes. */
++  int pos;		/* Biased buffer position. */
++  int epos;		/* End of biased buffer position - max single put. */
++  int ofs;		/* Byte offset into section. */
++} dasm_Section;
++
++/* Core structure holding the DynASM encoding state. */
++struct dasm_State {
++  size_t psize;			/* Allocated size of this structure. */
++  dasm_ActList actionlist;	/* Current actionlist pointer. */
++  int *lglabels;		/* Local/global chain/pos ptrs. */
++  size_t lgsize;
++  int *pclabels;		/* PC label chains/pos ptrs. */
++  size_t pcsize;
++  void **globals;		/* Array of globals (bias -10). */
++  dasm_Section *section;	/* Pointer to active section. */
++  size_t codesize;		/* Total size of all code sections. */
++  int maxsection;		/* 0 <= sectionidx < maxsection. */
++  int status;			/* Status code. */
++  dasm_Section sections[1];	/* All sections. Alloc-extended. */
++};
++
++/* The size of the core structure depends on the max. number of sections. */
++#define DASM_PSZ(ms)	(sizeof(dasm_State)+(ms-1)*sizeof(dasm_Section))
++
++
++/* Initialize DynASM state. */
++void dasm_init(Dst_DECL, int maxsection)
++{
++  dasm_State *D;
++  size_t psz = 0;
++  int i;
++  Dst_REF = NULL;
++  DASM_M_GROW(Dst, struct dasm_State, Dst_REF, psz, DASM_PSZ(maxsection));
++  D = Dst_REF;
++  D->psize = psz;
++  D->lglabels = NULL;
++  D->lgsize = 0;
++  D->pclabels = NULL;
++  D->pcsize = 0;
++  D->globals = NULL;
++  D->maxsection = maxsection;
++  for (i = 0; i < maxsection; i++) {
++    D->sections[i].buf = NULL;  /* Need this for pass3. */
++    D->sections[i].rbuf = D->sections[i].buf - DASM_SEC2POS(i);
++    D->sections[i].bsize = 0;
++    D->sections[i].epos = 0;  /* Wrong, but is recalculated after resize. */
++  }
++}
++
++/* Free DynASM state. */
++void dasm_free(Dst_DECL)
++{
++  dasm_State *D = Dst_REF;
++  int i;
++  for (i = 0; i < D->maxsection; i++)
++    if (D->sections[i].buf)
++      DASM_M_FREE(Dst, D->sections[i].buf, D->sections[i].bsize);
++  if (D->pclabels) DASM_M_FREE(Dst, D->pclabels, D->pcsize);
++  if (D->lglabels) DASM_M_FREE(Dst, D->lglabels, D->lgsize);
++  DASM_M_FREE(Dst, D, D->psize);
++}
++
++/* Setup global label array. Must be called before dasm_setup(). */
++void dasm_setupglobal(Dst_DECL, void **gl, unsigned int maxgl)
++{
++  dasm_State *D = Dst_REF;
++  D->globals = gl - 10;  /* Negative bias to compensate for locals. */
++  DASM_M_GROW(Dst, int, D->lglabels, D->lgsize, (10+maxgl)*sizeof(int));
++}
++
++/* Grow PC label array. Can be called after dasm_setup(), too. */
++void dasm_growpc(Dst_DECL, unsigned int maxpc)
++{
++  dasm_State *D = Dst_REF;
++  size_t osz = D->pcsize;
++  DASM_M_GROW(Dst, int, D->pclabels, D->pcsize, maxpc*sizeof(int));
++  memset((void *)(((unsigned char *)D->pclabels)+osz), 0, D->pcsize-osz);
++}
++
++/* Setup encoder. */
++void dasm_setup(Dst_DECL, const void *actionlist)
++{
++  dasm_State *D = Dst_REF;
++  int i;
++  D->actionlist = (dasm_ActList)actionlist;
++  D->status = DASM_S_OK;
++  D->section = &D->sections[0];
++  memset((void *)D->lglabels, 0, D->lgsize);
++  if (D->pclabels) memset((void *)D->pclabels, 0, D->pcsize);
++  for (i = 0; i < D->maxsection; i++) {
++    D->sections[i].pos = DASM_SEC2POS(i);
++    D->sections[i].ofs = 0;
++  }
++}
++
++
++#ifdef DASM_CHECKS
++#define CK(x, st) \
++  do { if (!(x)) { \
++    D->status = DASM_S_##st|(int)(p-D->actionlist-1); return; } } while (0)
++#define CKPL(kind, st) \
++  do { if ((size_t)((char *)pl-(char *)D->kind##labels) >= D->kind##size) { \
++    D->status = DASM_S_RANGE_##st|(int)(p-D->actionlist-1); return; } } while (0)
++#else
++#define CK(x, st)	((void)0)
++#define CKPL(kind, st)	((void)0)
++#endif
++
++static int dasm_imms(int n)
++{
++  return (n >= -2048 && n < 2048) ? n : 4096;
++}
++/* Pass 1: Store actions and args, link branches/labels, estimate offsets. */
++void dasm_put(Dst_DECL, int start, ...)
++{
++  va_list ap;
++  dasm_State *D = Dst_REF;
++  dasm_ActList p = D->actionlist + start;
++  dasm_Section *sec = D->section;
++  int pos = sec->pos, ofs = sec->ofs;
++  int *b;
++
++  if (pos >= sec->epos) {
++    DASM_M_GROW(Dst, int, sec->buf, sec->bsize,
++      sec->bsize + 2*DASM_MAXSECPOS*sizeof(int));
++    sec->rbuf = sec->buf - DASM_POS2BIAS(pos);
++    sec->epos = (int)sec->bsize/sizeof(int) - DASM_MAXSECPOS+DASM_POS2BIAS(pos);
++  }
++
++  b = sec->rbuf;
++  b[pos++] = start;
++
++  va_start(ap, start);
++  while (1) {
++    unsigned int ins = *p++;
++    unsigned int action = (ins >> 20);
++    if (action >= DASM__MAX || (ins & 0xf)) {
++      ofs += 4;
++    } else {
++      ins >>= 4;
++      int *pl, n = action >= DASM_REL_PC ? va_arg(ap, int) : 0;
++      switch (action) {
++      case DASM_STOP: goto stop;
++      case DASM_SECTION:
++	n = (ins & 255); CK(n < D->maxsection, RANGE_SEC);
++	D->section = &D->sections[n]; goto stop;
++      case DASM_ESC: p++; ofs += 4; break;
++      case DASM_REL_EXT: break;
++      case DASM_ALIGN: ofs += (ins & 255); b[pos++] = ofs; break;
++      case DASM_REL_LG:
++	n = (ins & 2047) - 10; pl = D->lglabels + n;
++	/* Bkwd rel or global. */
++	if (n >= 0) { CK(n>=10||*pl<0, RANGE_LG); CKPL(lg, LG); goto putrel; }
++	pl += 10; n = *pl;
++	if (n < 0) n = 0;  /* Start new chain for fwd rel if label exists. */
++	goto linkrel;
++      case DASM_REL_PC:
++	pl = D->pclabels + n; CKPL(pc, PC);
++      putrel:
++	n = *pl;
++	if (n < 0) {  /* Label exists. Get label pos and store it. */
++	  b[pos] = -n;
++	} else {
++      linkrel:
++	  b[pos] = n;  /* Else link to rel chain, anchored at label. */
++	  *pl = pos;
++	}
++	pos++;
++	break;
++      case DASM_LABEL_LG:
++	pl = D->lglabels + (ins & 2047) - 10; CKPL(lg, LG); goto putlabel;
++      case DASM_LABEL_PC:
++	pl = D->pclabels + n; CKPL(pc, PC);
++      putlabel:
++	n = *pl;  /* n > 0: Collapse rel chain and replace with label pos. */
++	while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = pos;
++  }
++	*pl = -pos;  /* Label exists now. */
++	b[pos++] = ofs;  /* Store pass1 offset estimate. */
++	break;
++      case DASM_IMM:
++#ifdef DASM_CHECKS
++	CK((n & ((1<<((ins>>10)&31))-1)) == 0, RANGE_I);
++#endif
++	n >>= ((ins>>10)&31);
++#ifdef DASM_CHECKS
++	if (ins & 0x8000)
++	  CK(((n + (1<<(((ins>>5)&31)-1)))>>((ins>>5)&31)) == 0, RANGE_I);
++	else
++	  CK((n>>((ins>>5)&31)) == 0, RANGE_I);
++#endif
++	b[pos++] = n;
++	break;
++      case DASM_IMMS:
++#ifdef DASM_CHECKS
++        CK(dasm_imms(n) != 4096, RANGE_I);
++#endif
++	      b[pos++] = n;
++	      break;
++      }
++    }
++  }
++stop:
++  va_end(ap);
++  sec->pos = pos;
++  sec->ofs = ofs;
++}
++#undef CK
++
++/* Pass 2: Link sections, shrink aligns, fix label offsets. */
++int dasm_link(Dst_DECL, size_t *szp)
++{
++  dasm_State *D = Dst_REF;
++  int secnum;
++  int ofs = 0;
++
++#ifdef DASM_CHECKS
++  *szp = 0;
++  if (D->status != DASM_S_OK) return D->status;
++  {
++    int pc;
++    for (pc = 0; pc*sizeof(int) < D->pcsize; pc++)
++      if (D->pclabels[pc] > 0) return DASM_S_UNDEF_PC|pc;
++  }
++#endif
++
++  { /* Handle globals not defined in this translation unit. */
++    int idx;
++    for (idx = 10; idx*sizeof(int) < D->lgsize; idx++) {
++      int n = D->lglabels[idx];
++      /* Undefined label: Collapse rel chain and replace with marker (< 0). */
++      while (n > 0) { int *pb = DASM_POS2PTR(D, n); n = *pb; *pb = -idx; }
++    }
++  }
++
++  /* Combine all code sections. No support for data sections (yet). */
++  for (secnum = 0; secnum < D->maxsection; secnum++) {
++    dasm_Section *sec = D->sections + secnum;
++    int *b = sec->rbuf;
++    int pos = DASM_SEC2POS(secnum);
++    int lastpos = sec->pos;
++
++    while (pos != lastpos) {
++      dasm_ActList p = D->actionlist + b[pos++];
++      while (1) {
++	  unsigned int ins = *p++;
++	  unsigned int action = (ins >> 20);
++	  if (ins & 0xf) continue; else ins >>= 4;
++	  switch (action) {
++	  case DASM_STOP: case DASM_SECTION: goto stop;
++	  case DASM_ESC: p++; break;
++	  case DASM_REL_EXT: break;
++	  case DASM_ALIGN: ofs -= (b[pos++] + ofs) & (ins & 255); break;
++	  case DASM_REL_LG: case DASM_REL_PC: pos++; break;
++	  case DASM_LABEL_LG: case DASM_LABEL_PC: b[pos++] += ofs; break;
++	  case DASM_IMM: case DASM_IMMS: pos++; break;
++	  }
++      }
++      stop: (void)0;
++    }
++    ofs += sec->ofs;  /* Next section starts right after current section. */
++  }
++
++  D->codesize = ofs;  /* Total size of all code sections */
++  *szp = ofs;
++  return DASM_S_OK;
++}
++
++#ifdef DASM_CHECKS
++#define CK(x, st) \
++  do { if (!(x)) return DASM_S_##st|(int)(p-D->actionlist-1); } while (0)
++#else
++#define CK(x, st)	((void)0)
++#endif
++
++/* Pass 3: Encode sections. */
++int dasm_encode(Dst_DECL, void *buffer)
++{
++  dasm_State *D = Dst_REF;
++  char *base = (char *)buffer;
++  unsigned int *cp = (unsigned int *)buffer;
++  int secnum;
++
++  /* Encode all code sections. No support for data sections (yet). */
++  for (secnum = 0; secnum < D->maxsection; secnum++) {
++    dasm_Section *sec = D->sections + secnum;
++    int *b = sec->buf;
++    int *endb = sec->rbuf + sec->pos;
++
++    while (b != endb) {
++      dasm_ActList p = D->actionlist + *b++;
++      while (1) {
++	unsigned int ins = *p++;
++	if (ins & 0xf) { *cp++ = ins; continue; }
++	unsigned int action = (ins >> 20);
++	unsigned int val = (ins >> 4);
++	int n = (action >= DASM_ALIGN && action < DASM__MAX) ? *b++ : 0;
++	switch (action) {
++	case DASM_STOP: case DASM_SECTION: goto stop;
++	case DASM_ESC: *cp++ = *p++; break;
++	case DASM_REL_EXT:
++	  n = DASM_EXTERN(Dst, (unsigned char *)cp, (val & 2047), 1);
++	  goto patchrel;
++	case DASM_ALIGN:
++	  val &= 255; while ((((char *)cp - base) & val)) *cp++ = 0x60000000;
++	  break;
++	case DASM_REL_LG:
++	  if (n < 0) {
++	    n = (int)((ptrdiff_t)D->globals[-n] - (ptrdiff_t)cp + 4);
++	    goto patchrel;
++	  }
++	  /* fallthrough */
++	case DASM_REL_PC:
++	  CK(n >= 0, UNDEF_PC);
++	  n = *DASM_POS2PTR(D, n) - (int)((char *)cp - base) + 4;
++	patchrel:
++	  if (val & 2048) { /* B */
++	    CK((n & 1) == 0 && ((n + 0x1000) >> 13) == 0, RANGE_REL);
++	    cp[-1] |= ((n << 19) & 0x80000000) | ((n << 20) & 0x7e000000)
++	           |  ((n << 7)  & 0x00000f00) | ((n >> 4)  & 0x00000080);
++	  } else { /* J */
++	    CK((n & 1) == 0 && ((n+0x00100000) >> 21) == 0, RANGE_REL);
++	    cp[-1] |= ((n << 11) & 0x80000000) | ((n << 20) & 0x7fe00000)
++	           |  ((n << 9)  & 0x00100000) | (n & 0x000ff000);
++	  }
++	  break;
++	case DASM_LABEL_LG:
++	  val &= 2047; if (val >= 20) D->globals[val-10] = (void *)(base + n);
++	  break;
++	case DASM_LABEL_PC: break;
++	case DASM_IMM:
++	  cp[-1] |= (n & ((1<<((val>>5)&31))-1)) << (val&31);
++	  break;
++	case DASM_IMMS:
++	  cp[-1] |= (((n << 20) & 0xfe000000) | ((n << 7) & 0x00000f80));
++	  break;
++	default: *cp++ = ins; break;
++	}
++      }
++      stop: (void)0;
++    }
++  }
++
++  if (base + D->codesize != (char *)cp)  /* Check for phase errors. */
++    return DASM_S_PHASE;
++  return DASM_S_OK;
++}
++#undef CK
++
++/* Get PC label offset. */
++int dasm_getpclabel(Dst_DECL, unsigned int pc)
++{
++  dasm_State *D = Dst_REF;
++  if (pc*sizeof(int) < D->pcsize) {
++    int pos = D->pclabels[pc];
++    if (pos < 0) return *DASM_POS2PTR(D, -pos);
++    if (pos > 0) return -1;  /* Undefined. */
++  }
++  return -2;  /* Unused or out of range. */
++}
++
++#ifdef DASM_CHECKS
++/* Optional sanity checker to call between isolated encoding steps. */
++int dasm_checkstep(Dst_DECL, int secmatch)
++{
++  dasm_State *D = Dst_REF;
++  if (D->status == DASM_S_OK) {
++    int i;
++    for (i = 1; i <= 9; i++) {
++      if (D->lglabels[i] > 0) { D->status = DASM_S_UNDEF_LG|i; break; }
++      D->lglabels[i] = 0;
++    }
++  }
++  if (D->status == DASM_S_OK && secmatch >= 0 &&
++      D->section != &D->sections[secmatch])
++    D->status = DASM_S_MATCH_SEC|(int)(D->section-D->sections);
++  return D->status;
++}
++#endif
++
+diff --git a/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv.lua b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv.lua
+new file mode 100644
+index 0000000..e8e522a
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv.lua
+@@ -0,0 +1,973 @@
++------------------------------------------------------------------------------
++-- DynASM RISC-V module.
++--
++-- Copyright (C) 2005-2022 Mike Pall. All rights reserved.
++-- See dynasm.lua for full copyright notice.
++------------------------------------------------------------------------------
++
++local riscv32 = riscv32
++local riscv64 = riscv64
++
++-- Module information:
++local _info = {
++  arch =	riscv32 and "riscv32" or riscv64 and "riscv64",
++  description =	"DynASM RISC-V module",
++  version =	"1.5.0",
++  vernum =	 10500,
++  release =	"2022-07-12",
++  author =	"Mike Pall",
++  license =	"MIT",
++}
++
++-- Exported glue functions for the arch-specific module.
++local _M = { _info = _info }
++
++-- Cache library functions.
++local type, tonumber, pairs, ipairs = type, tonumber, pairs, ipairs
++local assert, setmetatable = assert, setmetatable
++local _s = string
++local sub, format, byte, char = _s.sub, _s.format, _s.byte, _s.char
++local match, gmatch = _s.match, _s.gmatch
++local concat, sort = table.concat, table.sort
++local bit = bit or require("bit")
++local band, shl, shr, sar = bit.band, bit.lshift, bit.rshift, bit.arshift
++local tohex = bit.tohex
++
++local function __orderedIndexGen(t)
++    local orderedIndex = {}
++    for key in pairs(t) do
++        table.insert(orderedIndex, key)
++    end
++    table.sort( orderedIndex )
++    return orderedIndex
++end
++
++local function __orderedNext(t, state)
++    local key = nil
++    if state == nil then
++        t.__orderedIndex = __orderedIndexGen(t)
++        key = t.__orderedIndex[1]
++    else
++        local j = 0
++        for _,_ in pairs(t.__orderedIndex) do j = j + 1 end
++        for i = 1, j do
++            if t.__orderedIndex[i] == state then
++                key = t.__orderedIndex[i+1]
++            end
++        end
++    end
++
++    if key then
++        return key, t[key]
++    end
++
++    t.__orderedIndex = nil
++    return
++end
++
++local function opairs(t)
++    return __orderedNext, t, nil
++end
++
++-- Inherited tables and callbacks.
++local g_opt, g_arch
++local wline, werror, wfatal, wwarn
++
++-- Action name list.
++-- CHECK: Keep this in sync with the C code!
++local action_names = {
++  "STOP", "SECTION", "ESC", "REL_EXT",
++  "ALIGN", "REL_LG", "LABEL_LG",
++  "REL_PC", "LABEL_PC", "IMM", "IMMS",
++}
++
++-- Maximum number of section buffer positions for dasm_put().
++-- CHECK: Keep this in sync with the C code!
++local maxsecpos = 25 -- Keep this low, to avoid excessively long C lines.
++
++-- Action name -> action number.
++local map_action = {}
++for n,name in ipairs(action_names) do
++  map_action[name] = n-1
++end
++
++-- Action list buffer.
++local actlist = {}
++
++-- Argument list for next dasm_put(). Start with offset 0 into action list.
++local actargs = { 0 }
++
++-- Current number of section buffer positions for dasm_put().
++local secpos = 1
++
++------------------------------------------------------------------------------
++
++-- Dump action names and numbers.
++local function dumpactions(out)
++  out:write("DynASM encoding engine action codes:\n")
++  for n,name in ipairs(action_names) do
++    local num = map_action[name]
++    out:write(format("  %-10s %02X  %d\n", name, num, num))
++  end
++  out:write("\n")
++end
++
++-- Write action list buffer as a huge static C array.
++local function writeactions(out, name)
++  local nn = #actlist
++  if nn == 0 then nn = 1; actlist[0] = map_action.STOP end
++  out:write("static const unsigned int ", name, "[", nn, "] = {\n")
++  for i = 1,nn-1 do
++    assert(out:write("0x", tohex(actlist[i]), ",\n"))
++  end
++  assert(out:write("0x", tohex(actlist[nn]), "\n};\n\n"))
++end
++
++------------------------------------------------------------------------------
++
++-- Add word to action list.
++local function wputxw(n)
++  assert(n >= 0 and n <= 0xffffffff and n % 1 == 0, "word out of range")
++  actlist[#actlist+1] = n
++end
++
++-- Add action to list with optional arg. Advance buffer pos, too.
++local function waction(action, val, a, num)
++  local w = assert(map_action[action], "bad action name `"..action.."'")
++  wputxw(w * 0x100000 + (val or 0) * 16)
++  if a then actargs[#actargs+1] = a end
++  if a or num then secpos = secpos + (num or 1) end
++end
++
++-- Flush action list (intervening C code or buffer pos overflow).
++local function wflush(term)
++  if #actlist == actargs[1] then return end -- Nothing to flush.
++  if not term then waction("STOP") end -- Terminate action list.
++  wline(format("dasm_put(Dst, %s);", concat(actargs, ", ")), true)
++  actargs = { #actlist } -- Actionlist offset is 1st arg to next dasm_put().
++  secpos = 1 -- The actionlist offset occupies a buffer position, too.
++end
++
++-- Put escaped word.
++local function wputw(n)
++  if band(n, 0xf) == 0 then waction("ESC") end
++  wputxw(n)
++end
++
++-- Reserve position for word.
++local function wpos()
++  local pos = #actlist+1
++  actlist[pos] = ""
++  return pos
++end
++
++-- Store word to reserved position.
++local function wputpos(pos, n)
++  assert(n >= -0x80000000 and n <= 0xffffffff and n % 1 == 0, "word out of range")
++  actlist[pos] = n
++end
++
++------------------------------------------------------------------------------
++
++-- Global label name -> global label number. With auto assignment on 1st use.
++local next_global = 20
++local map_global = setmetatable({}, { __index = function(t, name)
++  if not match(name, "^[%a_][%w_]*$") then werror("bad global label") end
++  local n = next_global
++  if n > 2047 then werror("too many global labels") end
++  next_global = n + 1
++  t[name] = n
++  return n
++end})
++
++-- Dump global labels.
++local function dumpglobals(out, lvl)
++  local t = {}
++  for name, n in pairs(map_global) do t[n] = name end
++  out:write("Global labels:\n")
++  for i=20,next_global-1 do
++    out:write(format("  %s\n", t[i]))
++  end
++  out:write("\n")
++end
++
++-- Write global label enum.
++local function writeglobals(out, prefix)
++  local t = {}
++  for name, n in pairs(map_global) do t[n] = name end
++  out:write("enum {\n")
++  for i=20,next_global-1 do
++    out:write("  ", prefix, t[i], ",\n")
++  end
++  out:write("  ", prefix, "_MAX\n};\n")
++end
++
++-- Write global label names.
++local function writeglobalnames(out, name)
++  local t = {}
++  for name, n in pairs(map_global) do t[n] = name end
++  out:write("static const char *const ", name, "[] = {\n")
++  for i=20,next_global-1 do
++    out:write("  \"", t[i], "\",\n")
++  end
++  out:write("  (const char *)0\n};\n")
++end
++
++------------------------------------------------------------------------------
++
++-- Extern label name -> extern label number. With auto assignment on 1st use.
++local next_extern = 0
++local map_extern_ = {}
++local map_extern = setmetatable({}, { __index = function(t, name)
++  -- No restrictions on the name for now.
++  local n = next_extern
++  if n > 2047 then werror("too many extern labels") end
++  next_extern = n + 1
++  t[name] = n
++  map_extern_[n] = name
++  return n
++end})
++
++-- Dump extern labels.
++local function dumpexterns(out, lvl)
++  out:write("Extern labels:\n")
++  for i=0,next_extern-1 do
++    out:write(format("  %s\n", map_extern_[i]))
++  end
++  out:write("\n")
++end
++
++-- Write extern label names.
++local function writeexternnames(out, name)
++  out:write("static const char *const ", name, "[] = {\n")
++  for i=0,next_extern-1 do
++    out:write("  \"", map_extern_[i], "\",\n")
++  end
++  out:write("  (const char *)0\n};\n")
++end
++
++------------------------------------------------------------------------------
++
++-- Arch-specific maps.
++local map_archdef = {
++  ra = "x1", sp = "x2",
++} -- Ext. register name -> int. name.
++
++local map_type = {}		-- Type name -> { ctype, reg }
++local ctypenum = 0		-- Type number (for Dt... macros).
++
++-- Reverse defines for registers.
++function _M.revdef(s)
++  if s == "x1" then return "ra"
++  elseif s == "x2" then return "sp" end
++  return s
++end
++
++------------------------------------------------------------------------------
++
++-- Template strings for RISC-V instructions.
++local map_op = {}
++
++local map_op_rv32imafd = {
++
++  -- RV32I
++  lui_2 = "00000037DU",
++  auipc_2 = "00000017DU",
++
++  jal_2  = "0000006fDJ",
++  jalr_3 = "00000067DRI",
++  -- pseudo-instrs
++  j_1 = "0000006fJ",
++  jal_1 = "000000efJ",
++  jr_1 = "00000067R",
++  jalr_1 = "000000e7R",
++
++  beq_3  = "00000063RrB",
++  bne_3  = "00001063RrB",
++  blt_3  = "00004063RrB",
++  bge_3  = "00005063RrB",
++  bltu_3 = "00006063RrB",
++  bgeu_3 = "00007063RrB",
++  -- pseudo-instrs
++  bnez_2 = "00001063RB",
++  beqz_2 = "00000063RB",
++  blez_2 = "00005063rB",
++  bgez_2 = "00005063RB",
++  bltz_2 = "00004063RB",
++  bgtz_2 = "00004063rB",
++  bgt_3 = "00004063rRB",
++  ble_3 = "00005063rRB",
++  bgtu_3 = "00006063rRB",
++  bleu_3 = "00007063rRB",
++
++  lb_2  = "00000003DL",
++  lh_2  = "00001003DL",
++  lw_2  = "00002003DL",
++  lbu_2 = "00004003DL",
++  lhu_2 = "00005003DL",
++
++  sb_2 = "00000023rS",
++  sh_2 = "00001023rS",
++  sw_2 = "00002023rS",
++
++  addi_3  = "00000013DRI",
++  slti_3  = "00002013DRI",
++  sltiu_3 = "00003013DRI",
++  xori_3 = "00004013DRI",
++  ori_3 = "00006013DRI",
++  andi_3 = "00007013DRI",
++  slli_3 = "00001013DRi",
++  srli_3 = "00005013DRi",
++  srai_3 = "40005013DRi",
++  -- pseudo-instrs
++  seqz_2 = "00103013DR",
++  ["zext.b_2"] = "0ff07013DR",
++
++  add_3 = "00000033DRr",
++  sub_3 = "40000033DRr",
++  sll_3 = "00001033DRr",
++  slt_3 = "00002033DRr",
++  sltu_3 = "00003033DRr",
++  xor_3 = "00004033DRr",
++  srl_3 = "00005033DRr",
++  sra_3 = "40005033DRr",
++  or_3 = "00006033DRr",
++  and_3 = "00007033DRr",
++  -- pseudo-instrs
++  snez_2 = "00003033Dr",
++  sltz_2 = "00002033DR",
++  sgtz_2 = "00002033Dr",
++
++  ecall_0 = "00000073",
++  ebreak_0 = "00100073",
++
++  nop_0 = "00000013",
++  li_2 = "00000013DI",
++  mv_2 = "00000013DR",
++  not_2 = "fff04013DR",
++  neg_2 = "40000033Dr",
++  ret_0 = "00008067",
++
++  -- RV32M
++  mul_3    = "02000033DRr",
++  mulh_3   = "02001033DRr",
++  mulhsu_3 = "02002033DRr",
++  mulhu_3  = "02003033DRr",
++  div_3  = "02004033DRr",
++  divu_3 = "02005033DRr",
++  rem_3  = "02006033DRr",
++  remu_3 = "02007033DRr",
++
++  -- RV32A
++  ["lr.w_2"] = "c0000053FR",
++  ["sc.w_2"] = "c0001053FRr",
++  ["amoswap.w_3"] = "c0002053FRr",
++  ["amoadd.w_3"] = "c0003053FRr",
++  ["amoxor.w_3"] = "c0004053FRr",
++  ["amoor.w_3"] = "c0005053FRr",
++  ["amoand.w_3"] = "c0006053FRr",
++  ["amomin.w_3"] = "c0007053FRr",
++  ["amomax.w_3"] = "c0008053FRr",
++  ["amominu.w_3"] = "c0009053FRr",
++  ["amomaxu.w_3"] = "c000a053FRr",
++
++  -- RV32F
++  ["flw_2"] = "00002007FL",
++  ["fsw_2"] = "00002027gS",
++
++  ["fmadd.s_4"]  = "00000043FGgH",
++  ["fmsub.s_4"]  = "00000047FGgH",
++  ["fnmsub.s_4"] = "0000004bFGgH",
++  ["fnmadd.s_4"] = "0000004fFGgH",
++  ["fmadd.s_5"]  = "00000043FGgHM",
++  ["fmsub.s_5"]  = "00000047FGgHM",
++  ["fnmsub.s_5"] = "0000004bFGgHM",
++  ["fnmadd.s_5"] = "0000004fFGgHM",
++
++  ["fadd.s_3"]  = "00000053FGg",
++  ["fsub.s_3"]  = "08000053FGg",
++  ["fmul.s_3"]  = "10000053FGg",
++  ["fdiv.s_3"]  = "18000053FGg",
++  ["fsqrt.s_2"] = "58000053FG",
++  ["fadd.s_4"]  = "00000053FGgM",
++  ["fsub.s_4"]  = "08000053FGgM",
++  ["fmul.s_4"]  = "10000053FGgM",
++  ["fdiv.s_4"]  = "18000053FGgM",
++  ["fsqrt.s_3"] = "58000053FGM",
++
++  ["fsgnj.s_3"]  = "20000053FGg",
++  ["fsgnjn.s_3"] = "20001053FGg",
++  ["fsgnjx.s_3"] = "20002053FGg",
++
++  ["fmin.s_3"] = "28000053FGg",
++  ["fmax.s_3"] = "28001053FGg",
++
++  ["fcvt.w.s_2"]  = "c0000053DG",
++  ["fcvt.wu.s_2"] = "c0100053DG",
++  ["fcvt.w.s_3"]  = "c0000053DGM",
++  ["fcvt.wu.s_3"] = "c0100053DGM",
++  ["fmv.x.w_2"] = "e0000053DG",
++
++  ["feq.s_3"] = "a0002053DGg",
++  ["flt.s_3"] = "a0001053DGg",
++  ["fle.s_3"] = "a0000053DGg",
++
++  ["fclass.s_2"] = "e0001053DG",
++
++  ["fcvt.s.w_2"]  = "d0000053FR",
++  ["fcvt.s.wu_2"] = "d0100053FR",
++  ["fcvt.s.w_3"]  = "d0000053FRM",
++  ["fcvt.s.wu_3"] = "d0100053FRM",
++  ["fmv.w.x_2"] = "f0000053FR",
++
++  -- RV32D
++  ["fld_2"] = "00003007FL",
++  ["fsd_2"] = "00003027gS",
++  
++  ["fmadd.d_4"]  = "02000043FGgH",
++  ["fmsub.d_4"]  = "02000047FGgH",
++  ["fnmsub.d_4"] = "0200004bFGgH",
++  ["fnmadd.d_4"] = "0200004fFGgH",
++  ["fmadd.d_5"]  = "02000043FGgHM",
++  ["fmsub.d_5"]  = "02000047FGgHM",
++  ["fnmsub.d_5"] = "0200004bFGgHM",
++  ["fnmadd.d_5"] = "0200004fFGgHM",
++
++  ["fadd.d_3"]  = "02000053FGg",
++  ["fsub.d_3"]  = "0a000053FGg",
++  ["fmul.d_3"]  = "12000053FGg",
++  ["fdiv.d_3"]  = "1a000053FGg",
++  ["fsqrt.d_2"] = "5a000053FG",
++  ["fadd.d_4"]  = "02000053FGgM",
++  ["fsub.d_4"]  = "0a000053FGgM",
++  ["fmul.d_4"]  = "12000053FGgM",
++  ["fdiv.d_4"]  = "1a000053FGgM",
++  ["fsqrt.d_3"] = "5a000053FGM",
++
++  ["fsgnj.d_3"]  = "22000053FGg",
++  ["fsgnjn.d_3"] = "22001053FGg",
++  ["fsgnjx.d_3"] = "22002053FGg",
++  ["fmin.d_3"] = "2a000053FGg",
++  ["fmax.d_3"] = "2a001053FGg",
++  ["fcvt.s.d_2"] = "40100053FG",
++  ["fcvt.d.s_2"] = "42000053FG",
++  ["feq.d_3"] = "a2002053DGg",
++  ["flt.d_3"] = "a2001053DGg",
++  ["fle.d_3"] = "a2000053DGg",
++  ["fclass.d_2"] = "e2001053DG",
++  ["fcvt.w.d_2"]  = "c2000053DG",
++  ["fcvt.wu.d_2"] = "c2100053DG",
++  ["fcvt.d.w_2"]  = "d2000053FR",
++  ["fcvt.d.wu_2"] = "d2100053FR",
++  ["fcvt.w.d_3"]  = "c2000053DGM",
++  ["fcvt.wu.d_3"] = "c2100053DGM",
++  ["fcvt.d.w_3"]  = "d2000053FRM",
++  ["fcvt.d.wu_3"] = "d2100053FRM",
++
++  ["fmv.d_2"] = "22000053FY",
++  ["fneg.d_2"] = "22001053FY",
++  ["fabs.d_2"] = "22002053FY",
++
++}
++
++local map_op_rv64imafd = {
++
++  -- RV64I
++  lwu_2 = "00006003DL",
++  ld_2  = "00003003DL",
++
++  sd_2 = "00003023rS",
++
++  slli_3 = "00001013DRj",
++  srli_3 = "00005013DRj",
++  srai_3 = "40005013DRj",
++
++  addiw_3 = "0000001bDRI",
++  slliw_3 = "0000101bDRi",
++  srliw_3 = "0000501bDRi",
++  sraiw_3 = "4000501bDRi",
++
++  addw_3 = "0000003bDRr",
++  subw_3 = "4000003bDRr",
++  sllw_3 = "0000103bDRr",
++  srlw_3 = "0000503bDRr",
++  sraw_3 = "4000503bDRr",
++
++  negw_2 = "4000003bDr",
++  ["sext.w_2"] = "0000001bDR",
++
++  -- RV64M
++  mulw_3  = "0200003bDRr",
++  divw_3  = "0200403bDRr",
++  divuw_3 = "0200503bDRr",
++  remw_3  = "0200603bDRr",
++  remuw_3 = "0200703bDRr",
++
++  -- RV64A
++  ["lr.d_2"] = "c2000053FR",
++  ["sc.d_2"] = "c2001053FRr",
++  ["amoswap.d_3"] = "c2002053FRr",
++  ["amoadd.d_3"] = "c2003053FRr",
++  ["amoxor.d_3"] = "c2004053FRr",
++  ["amoor.d_3"] = "c2005053FRr",
++  ["amoand.d_3"] = "c2006053FRr",
++  ["amomin.d_3"] = "c2007053FRr",
++  ["amomax.d_3"] = "c2008053FRr",
++  ["amominu.d_3"] = "c2009053FRr",
++  ["amomaxu.d_3"] = "c200a053FRr",
++
++  -- RV64F
++  ["fcvt.l.s_2"]  = "c0200053DG",
++  ["fcvt.lu.s_2"] = "c0300053DG",
++  ["fcvt.l.s_3"]  = "c0200053DGM",
++  ["fcvt.lu.s_3"] = "c0300053DGM",
++  ["fcvt.s.l_2"]  = "d0200053FR",
++  ["fcvt.s.lu_2"] = "d0300053FR",
++  ["fcvt.s.l_3"]  = "d0200053FRM",
++  ["fcvt.s.lu_3"] = "d0300053FRM",
++
++  -- RV64D
++  ["fcvt.l.d_2"]  = "c2200053DG",
++  ["fcvt.lu.d_2"] = "c2300053DG",
++  ["fcvt.l.d_3"]  = "c2200053DGM",
++  ["fcvt.lu.d_3"] = "c2300053DGM",
++  ["fmv.x.d_2"]   = "e2000053DG",
++  ["fcvt.d.l_2"]  = "d2200053FR",
++  ["fcvt.d.lu_2"] = "d2300053FR",
++  ["fcvt.d.l_3"]  = "d2200053FRM",
++  ["fcvt.d.lu_3"] = "d2300053FRM",
++  ["fmv.d.x_2"]   = "f2000053FR",
++
++}
++
++local map_op_zicsr = {
++  csrrw_3 = "00001073DCR",
++  csrrs_3 = "00002073DCR",
++  csrrc_3 = "00003073DCR",
++  csrrwi_3 = "00005073DCu",
++  csrrsi_3 = "00006073DCu",
++  csrrci_3 = "00007073DCu",
++
++  -- pseudo-ops
++  csrrw_2 = "00001073DC",
++  csrrs_2 = "00002073CR",
++  csrrc_2 = "00003073CR",
++  csrrwi_2 = "00005073Cu",
++  csrrsi_2 = "00006073Cu",
++  csrrci_2 = "00007073Cu",
++
++  rdinstret_1 = "C0202073D",
++  rdcycle_1 = "C0002073D",
++  rdtime_1 = "C0102073D",
++  rdinstreth_1 = "C8202073D",
++  rdcycleh_1 = "C8002073D",
++  rdtimeh_1 = "C8102073D",
++
++  frcsr_1 = "00302073D",
++  fscsr_2 = "00301073DR",
++  fscsr_1 = "00301073R",
++  frrm_1 = "00202073D",
++  fsrm_2 = "00201073DR",
++  fsrm_1 = "00201073R",
++  fsrmi_2 = "00205073Du",
++  fsrmi_1 = "00205073u",
++  frflags_1 = "00102073D",
++  fsflags_2 = "00101073DR",
++  fsflagsi_2 = "00105073Du",
++  fsflagsi_1 = "00105073u",
++}
++
++local map_op_zifencei = {
++  ["fence.i_3"] = "0000100fDRI",
++}
++
++local list_map_op_rv32 = { ['a'] = map_op_rv32imafd, ['b'] = map_op_zifencei, ['c'] = map_op_zicsr }
++local list_map_op_rv64 = { ['a'] = map_op_rv32imafd, ['b'] = map_op_rv64imafd, ['c'] = map_op_zifencei, ['d'] = map_op_zicsr }
++
++if riscv32 then for _, map in opairs(list_map_op_rv32) do
++  for k, v in pairs(map) do map_op[k] = v end
++  end
++end
++if riscv64 then for _, map in opairs(list_map_op_rv64) do
++  for k, v in pairs(map) do map_op[k] = v end
++  end
++end
++
++------------------------------------------------------------------------------
++
++local function parse_gpr(expr)
++  local tname, ovreg = match(expr, "^([%w_]+):(x[1-3]?[0-9])$")
++  local tp = map_type[tname or expr]
++  if tp then
++    local reg = ovreg or tp.reg
++    if not reg then
++      werror("type `"..(tname or expr).."' needs a register override")
++    end
++    expr = reg
++  end
++  local r = match(expr, "^x([1-3]?[0-9])$")
++  if r then
++    r = tonumber(r)
++    if r <= 31 then return r, tp end
++  end
++  werror("bad register name `"..expr.."'")
++end
++
++local function parse_fpr(expr)
++  local r = match(expr, "^f([1-3]?[0-9])$")
++  if r then
++    r = tonumber(r)
++    if r <= 31 then return r end
++  end
++  werror("bad register name `"..expr.."'")
++end
++
++local function parse_imm(imm, bits, shift, scale, signed, action)
++  local n = tonumber(imm)
++  if n then
++    local m = sar(n, scale)
++    if shl(m, scale) == n then
++      if signed then
++          local s = sar(m, bits-1)
++          if s == 0 then return shl(m, shift)
++          elseif s == -1 then return shl(m + shl(1, bits), shift) end
++      else
++          if sar(m, bits) == 0 then return shl(m, shift) end
++      end
++    end
++    werror("out of range immediate `"..imm.."'")
++  elseif match(imm, "^[xf]([1-3]?[0-9])$") or
++           match(imm, "^([%w_]+):([xf][1-3]?[0-9])$") then
++    werror("expected immediate operand, got register")
++  else
++    waction(action or "IMM",
++        (signed and 32768 or 0)+shl(scale, 10)+shl(bits, 5)+shift, imm)
++    return 0
++  end
++end
++
++local function parse_csr(expr)
++  local r = match(expr, "^([1-4]?[0-9]?[0-9]?[0-9])$")
++  if r then
++    r = tonumber(r)
++    if r <= 4095 then return r end
++  end
++  werror("bad register name `"..expr.."'")
++end
++
++local function parse_imms(imm)
++  local n = tonumber(imm)
++  if n then
++    if n >= -2048 and n < 2048 then
++      local imm5, imm7 = band(n, 0x1f), shr(band(n, 0xfe0), 5)
++      return shl(imm5, 7) + shl(imm7, 25)
++    end
++    werror("out of range immediate `"..imm.."'")
++  elseif match(imm, "^[xf]([1-3]?[0-9])$") or
++         match(imm, "^([%w_]+):([xf][1-3]?[0-9])$") then
++    werror("expected immediate operand, got register")
++  else
++    waction("IMMS", 0, imm); return 0
++  end
++end
++
++local function parse_rm(mode)
++  local rnd_mode = {
++    rne = 0, rtz = 1, rdn = 2, rup = 3, rmm = 4, dyn = 7
++  }
++  local n = rnd_mode[mode]
++  if n then return n
++  else werror("bad rounding mode `"..mode.."'") end
++end
++
++local function parse_disp(disp, mode)
++  local imm, reg = match(disp, "^(.*)%(([%w_:]+)%)$")
++  if imm then
++    local r = shl(parse_gpr(reg), 15)
++    local extname = match(imm, "^extern%s+(%S+)$")
++    if extname then
++      waction("REL_EXT", map_extern[extname], nil, 1)
++      return r
++    else
++      if mode == "load" then
++        return r + parse_imm(imm, 12, 20, 0, true)
++      elseif mode == "store" then
++        return r + parse_imms(imm)
++      else
++        werror("bad displacement mode '"..mode.."'")
++      end
++    end
++  end
++  local reg, tailr = match(disp, "^([%w_:]+)%s*(.*)$")
++  if reg and tailr ~= "" then
++    local r, tp = parse_gpr(reg)
++    if tp then
++      if mode == "load" then
++          waction("IMM", 32768+12*32+20, format(tp.ctypefmt, tailr))
++      elseif mode == "store" then
++          waction("IMMS", 0, format(tp.ctypefmt, tailr))
++      else
++        werror("bad displacement mode '"..mode.."'")
++      end
++      return shl(r, 15)
++    end
++  end
++  werror("bad displacement `"..disp.."'")
++end
++
++local function parse_label(label, def)
++  local prefix = sub(label, 1, 2)
++  -- =>label (pc label reference)
++  if prefix == "=>" then
++    return "PC", 0, sub(label, 3)
++  end
++  -- ->name (global label reference)
++  if prefix == "->" then
++    return "LG", map_global[sub(label, 3)]
++  end
++  if def then
++    -- [1-9] (local label definition)
++    if match(label, "^[1-9]$") then
++      return "LG", 10+tonumber(label)
++    end
++  else
++    -- [<>][1-9] (local label reference)
++    local dir, lnum = match(label, "^([<>])([1-9])$")
++    if dir then -- Fwd: 1-9, Bkwd: 11-19.
++      return "LG", lnum + (dir == ">" and 0 or 10)
++    end
++    -- extern label (extern label reference)
++    local extname = match(label, "^extern%s+(%S+)$")
++    if extname then
++      return "EXT", map_extern[extname]
++    end
++  end
++  werror("bad label `"..label.."'")
++end
++
++------------------------------------------------------------------------------
++
++-- Handle opcodes defined with template strings.
++map_op[".template__"] = function(params, template, nparams)
++  if not params then return sub(template, 9) end
++  local op = tonumber(sub(template, 1, 8), 16)
++  local n = 1
++
++  -- Limit number of section buffer positions used by a single dasm_put().
++  -- A single opcode needs a maximum of 2 positions (ins/ext).
++  if secpos+2 > maxsecpos then wflush() end
++  local pos = wpos()
++
++  -- Process each character.
++  for p in gmatch(sub(template, 9), ".") do
++    if p == "D" then  -- gpr rd
++      op = op + shl(parse_gpr(params[n]), 7); n = n + 1
++    elseif p == "R" then  -- gpr rs1
++      op = op + shl(parse_gpr(params[n]), 15); n = n + 1
++    elseif p == "r" then  -- gpr rs2
++      op = op + shl(parse_gpr(params[n]), 20); n = n + 1
++    elseif p == "F" then  -- fpr rd
++      op = op + shl(parse_fpr(params[n]), 7); n = n + 1
++    elseif p == "G" then  -- fpr rs1
++      op = op + shl(parse_fpr(params[n]), 15); n = n + 1
++    elseif p == "g" then  -- fpr rs2
++      op = op + shl(parse_fpr(params[n]), 20); n = n + 1
++    elseif p == "H" then  -- fpr rs3
++      op = op + shl(parse_fpr(params[n]), 27); n = n + 1
++    elseif p == "C" then  -- csr
++      op = op + shl(parse_csr(params[n]), 20); n = n + 1
++    elseif p == "M" then  -- fpr rounding mode
++      op = op + shl(parse_rm(params[n]), 12); n = n + 1
++    elseif p == "Y" then  -- fpr psuedo-op
++      local r = parse_fpr(params[n])
++      op = op + shl(r, 15) + shl(r, 20); n = n + 1
++    elseif p == "I" then  -- I-type imm12
++      op = op + parse_imm(params[n], 12, 20, 0, true); n = n + 1
++    elseif p == "i" then  -- I-type shamt5
++      op = op + parse_imm(params[n], 5, 20, 0, false); n = n + 1
++    elseif p == "j" then  -- I-type shamt6
++      op = op + parse_imm(params[n], 6, 20, 0, false); n = n + 1
++    elseif p == "u" then  -- I-type uimm
++      op = op + parse_imm(params[n], 5, 15, 0, false); n = n + 1
++    elseif p == "U" then  -- U-type imm20
++      op = op + parse_imm(params[n], 20, 12, 0, false); n = n + 1
++    elseif p == "L" then  -- load
++      op = op + parse_disp(params[n], "load"); n = n + 1
++    elseif p == "S" then  -- store
++      op = op + parse_disp(params[n], "store"); n = n + 1
++    elseif p == "B" or p == "J" then  -- control flow
++      local mode, m, s = parse_label(params[n], false)
++      if p == "B" then m = m + 2048 end
++      waction("REL_"..mode, m, s, 1); n = n + 1
++    else
++      assert(false)
++    end
++  end
++  wputpos(pos, op)
++end
++
++------------------------------------------------------------------------------
++
++-- Pseudo-opcode to mark the position where the action list is to be emitted.
++map_op[".actionlist_1"] = function(params)
++  if not params then return "cvar" end
++  local name = params[1] -- No syntax check. You get to keep the pieces.
++  wline(function(out) writeactions(out, name) end)
++end
++
++-- Pseudo-opcode to mark the position where the global enum is to be emitted.
++map_op[".globals_1"] = function(params)
++  if not params then return "prefix" end
++  local prefix = params[1] -- No syntax check. You get to keep the pieces.
++  wline(function(out) writeglobals(out, prefix) end)
++end
++
++-- Pseudo-opcode to mark the position where the global names are to be emitted.
++map_op[".globalnames_1"] = function(params)
++  if not params then return "cvar" end
++  local name = params[1] -- No syntax check. You get to keep the pieces.
++  wline(function(out) writeglobalnames(out, name) end)
++end
++
++-- Pseudo-opcode to mark the position where the extern names are to be emitted.
++map_op[".externnames_1"] = function(params)
++  if not params then return "cvar" end
++  local name = params[1] -- No syntax check. You get to keep the pieces.
++  wline(function(out) writeexternnames(out, name) end)
++end
++
++------------------------------------------------------------------------------
++
++-- Label pseudo-opcode (converted from trailing colon form).
++map_op[".label_1"] = function(params)
++  if not params then return "[1-9] | ->global | =>pcexpr" end
++  if secpos+1 > maxsecpos then wflush() end
++  local mode, n, s = parse_label(params[1], true)
++  if mode == "EXT" then werror("bad label definition") end
++  waction("LABEL_"..mode, n, s, 1)
++end
++
++------------------------------------------------------------------------------
++
++-- Pseudo-opcodes for data storage.
++map_op[".long_*"] = function(params)
++  if not params then return "imm..." end
++  for _,p in ipairs(params) do
++    local n = tonumber(p)
++    if not n then werror("bad immediate `"..p.."'") end
++    if n < 0 then n = n + 2^32 end
++    wputw(n)
++    if secpos+2 > maxsecpos then wflush() end
++  end
++end
++
++-- Alignment pseudo-opcode.
++map_op[".align_1"] = function(params)
++  if not params then return "numpow2" end
++  if secpos+1 > maxsecpos then wflush() end
++  local align = tonumber(params[1])
++  if align then
++    local x = align
++    -- Must be a power of 2 in the range (2 ... 256).
++    for i=1,8 do
++      x = x / 2
++      if x == 1 then
++    waction("ALIGN", align-1, nil, 1) -- Action byte is 2**n-1.
++    return
++      end
++    end
++  end
++  werror("bad alignment")
++end
++
++------------------------------------------------------------------------------
++
++-- Pseudo-opcode for (primitive) type definitions (map to C types).
++map_op[".type_3"] = function(params, nparams)
++  if not params then
++    return nparams == 2 and "name, ctype" or "name, ctype, reg"
++  end
++  local name, ctype, reg = params[1], params[2], params[3]
++  if not match(name, "^[%a_][%w_]*$") then
++    werror("bad type name `"..name.."'")
++  end
++  local tp = map_type[name]
++  if tp then
++    werror("duplicate type `"..name.."'")
++  end
++  -- Add #type to defines. A bit unclean to put it in map_archdef.
++  map_archdef["#"..name] = "sizeof("..ctype..")"
++  -- Add new type and emit shortcut define.
++  local num = ctypenum + 1
++  map_type[name] = {
++    ctype = ctype,
++    ctypefmt = format("Dt%X(%%s)", num),
++    reg = reg,
++  }
++  wline(format("#define Dt%X(_V) (int)(ptrdiff_t)&(((%s *)0)_V)", num, ctype))
++  ctypenum = num
++end
++map_op[".type_2"] = map_op[".type_3"]
++
++-- Dump type definitions.
++local function dumptypes(out, lvl)
++  local t = {}
++  for name in pairs(map_type) do t[#t+1] = name end
++  sort(t)
++  out:write("Type definitions:\n")
++  for _,name in ipairs(t) do
++    local tp = map_type[name]
++    local reg = tp.reg or ""
++    out:write(format("  %-20s %-20s %s\n", name, tp.ctype, reg))
++  end
++  out:write("\n")
++end
++
++------------------------------------------------------------------------------
++
++-- Set the current section.
++function _M.section(num)
++  waction("SECTION", num)
++  wflush(true) -- SECTION is a terminal action.
++end
++
++------------------------------------------------------------------------------
++
++-- Dump architecture description.
++function _M.dumparch(out)
++  out:write(format("DynASM %s version %s, released %s\n\n",
++    _info.arch, _info.version, _info.release))
++  dumpactions(out)
++end
++
++-- Dump all user defined elements.
++function _M.dumpdef(out, lvl)
++  dumptypes(out, lvl)
++  dumpglobals(out, lvl)
++  dumpexterns(out, lvl)
++end
++
++------------------------------------------------------------------------------
++
++-- Pass callbacks from/to the DynASM core.
++function _M.passcb(wl, we, wf, ww)
++  wline, werror, wfatal, wwarn = wl, we, wf, ww
++  return wflush
++end
++
++-- Setup the arch-specific module.
++function _M.setup(arch, opt)
++  g_arch, g_opt = arch, opt
++end
++
++-- Merge the core maps and the arch-specific maps.
++function _M.mergemaps(map_coreop, map_def)
++  setmetatable(map_op, { __index = map_coreop })
++  setmetatable(map_def, { __index = map_archdef })
++  return map_op, map_def
++end
++
++return _M
++
++------------------------------------------------------------------------------
++
+diff --git a/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv32.lua b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv32.lua
+new file mode 100644
+index 0000000..654eb76
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv32.lua
+@@ -0,0 +1,12 @@
++------------------------------------------------------------------------------
++-- DynASM RISC-V 32 module.
++--
++-- Copyright (C) 2005-2022 Mike Pall. All rights reserved.
++-- See dynasm.lua for full copyright notice.
++------------------------------------------------------------------------------
++-- This module just sets 32 bit mode for the combined RISC-V module.
++-- All the interesting stuff is there.
++------------------------------------------------------------------------------
++
++riscv32 = true -- Using a global is an ugly, but effective solution.
++return require("dasm_riscv")
+diff --git a/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv64.lua b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv64.lua
+new file mode 100644
+index 0000000..10cdfe2
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/dynasm/dasm_riscv64.lua
+@@ -0,0 +1,12 @@
++------------------------------------------------------------------------------
++-- DynASM RISC-V 64 module.
++--
++-- Copyright (C) 2005-2022 Mike Pall. All rights reserved.
++-- See dynasm.lua for full copyright notice.
++------------------------------------------------------------------------------
++-- This module just sets 64 bit mode for the combined RISC-V module.
++-- All the interesting stuff is there.
++------------------------------------------------------------------------------
++
++riscv64 = true -- Using a global is an ugly, but effective solution.
++return require("dasm_riscv")
+diff --git a/bundle/LuaJIT-2.1-20220411/src/jit/dis_riscv.lua b/bundle/LuaJIT-2.1-20220411/src/jit/dis_riscv.lua
+new file mode 100644
+index 0000000..82b41aa
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/src/jit/dis_riscv.lua
+@@ -0,0 +1,772 @@
++------------------------------------------------------------------------------
++-- LuaJIT RISC-V disassembler module.
++--
++-- Copyright (C) 2005-2022 Mike Pall. All rights reserved.
++-- Released under the MIT license. See Copyright Notice in luajit.h
++--
++-- Contributed by Milos Poletanovic from Syrmia.com.
++------------------------------------------------------------------------------
++-- This is a helper module used by the LuaJIT machine code dumper module.
++--
++-- It disassembles most standard RISC-V instructions.
++-- Mode is little-endian
++------------------------------------------------------------------------------
++
++local type = type
++local byte, format = string.byte, string.format
++local match, gmatch = string.match, string.gmatch
++local concat = table.concat
++local bit = require("bit")
++local band, bor, tohex = bit.band, bit.bor, bit.tohex
++local lshift, rshift, arshift = bit.lshift, bit.rshift, bit.arshift
++
++------------------------------------------------------------------------------
++-- Opcode maps
++------------------------------------------------------------------------------
++
++--RVC32 extension
++
++local map_quad0 = {
++  shift = 13, mask = 7,
++  [0] = "c.addi4spnAW", "c.fldNMh", "c.lwAMn", "c.flwNMn",
++  false, "c.fsdNMh", "c.swAMn", "c.fswNMn"
++}
++
++local map_sub2quad1 = {
++  shift = 5, mask = 3,
++  [0] = "c.subMA", "c.xorMA", "c.orMA", "c.andMA"
++}
++
++local map_sub1quad1 = {
++  shift = 10, mask = 3,
++  [0] = "c.srliM1", "c.sraiM1", "c.andiMx", map_sub2quad1
++}
++
++local map_quad1 = {
++  shift = 13, mask = 7,
++  [0] = {
++    shift = 7, mask = 31,
++    [0] = "c.nop", _ = "c.addiDx"
++  },
++  [1] = "c.jalT", [2] = "c.liDx",
++  [3] = {
++    shift = 7, mask = 31,
++    [0] = "c.luiDK", [1] = "c.luiDK", [2] = "c.addi16spX",
++    _ = "c.luiDK"
++  },
++  [4] = map_sub1quad1, [5] = "c.jT", [6] = "c.beqzMq", [7] = "c.bnezMq"
++}
++
++local map_sub1quad2 = {
++  shift = 12, mask = 1,
++  [0] = {
++    shift = 2, mask = 31,
++    [0] = "c.jrD", _ = "c.mvDE"
++  },
++  [1] = {
++    shift = 2, mask = 31,
++    [0] = {
++      shift = 7, mask = 31,
++      [0] = "c.ebreak", _ = "c.jalrD"
++    },
++   _ = "c.addDE"
++  }
++}
++
++local map_quad2 = {
++  shift = 13, mask = 7,
++  [0] = "c.slliD1", [1] = "c.fldspFQ",[2] = "c.lwspDY", [3] = "c.flwspFY",
++  [4] = map_sub1quad2, [5] = "c.fsdspVt", [6] = "c.swspEu", [7] = "c.fswspVu"
++}
++
++local map_compr = {
++  [0] = map_quad0, map_quad1, map_quad2
++}
++
++--RV32M
++local map_mext = {
++  shift = 12, mask = 7,
++  [0] = "mulDRr", "mulhDRr", "mulhsuDRr", "mulhuDRr",
++  "divDRr", "divuDRr", "remDRr", "remuDRr"
++}
++
++--RV64M
++local map_mext64 = {
++  shift = 12, mask = 7,
++  [0] = "mulwDRr", [4] = "divwDRr", [5] = "divuwDRr", [6] = "remwDRr",
++  [7] = "remuwDRr"
++}
++
++--RV32F, RV64F, RV32D, RV64D
++local map_fload = {
++  shift = 12, mask = 7,
++  [2] = "flwFL", [3] = "fldFL"
++}
++
++local map_fstore = {
++  shift = 12, mask = 7,
++  [2] = "fswSg", [3] = "fsdSg"
++}
++
++local map_fmadd = {
++  shift = 25, mask = 3,
++  [0] = "fmadd.sFGgH", "fmadd.dFGgH"
++}
++
++local map_fmsub = {
++  shift = 25, mask = 3,
++  [0] = "fmsub.sFGgH", "fmsub.dFGgH"
++}
++
++local map_fnmsub = {
++  shift = 25, mask = 3,
++  [0] = "fnmsub.sFGgH", "fnmsub.dFGgH"
++}
++
++local map_fnmadd = {
++  shift = 25, mask = 3,
++  [0] = "fnmadd.sFGgH", "fnmadd.dFGgH"
++}
++
++local map_fsgnjs = {
++  shift = 12, mask = 7,
++  [0] = "fsgnj.s|fmv.sFGg6", "fsgnjn.s|fneg.sFGg6", "fsgnjx.s|fabs.sFGg6"
++}
++
++local map_fsgnjd = {
++  shift = 12, mask = 7,
++  [0] = "fsgnj.d|fmv.dFGg6", "fsgnjn.d|fneg.dFGg6", "fsgnjx.d|fabs.dFGg6"
++}
++
++local map_fms = {
++  shift = 12, mask = 7,
++  [0] = "fmin.sFGg", "fmax.sFGg"
++}
++
++local map_fmd = {
++  shift = 12, mask = 7,
++  [0] = "fmin.dFGg", "fmax.dFGg"
++}
++
++local map_fcomps = {
++  shift = 12, mask = 7,
++  [0] = "fle.sDGg", "flt.sDGg", "feq.sDGg"
++}
++
++local map_fcompd = {
++  shift = 12, mask = 7,
++  [0] = "fle.dDGg", "flt.dDGg", "feq.dDGg"
++}
++
++local map_fcvtwls = {
++  shift = 20, mask = 31,
++  [0] = "fcvt.w.sDG", "fcvt.wu.sDG", "fcvt.l.sDG", "fcvt.lu.sDG"
++}
++
++local map_fcvtwld = {
++  shift = 20, mask = 31,
++  [0] = "fcvt.w.dDG", "fcvt.wu.dDG", "fcvt.l.dDG", "fcvt.lu.dDG"
++}
++
++local map_fcvts = {
++  shift = 20, mask = 31,
++  [0] = "fcvt.s.wFR", "fcvt.s.wuFR", "fcvt.s.lFR", "fcvt.s.luFR"
++}
++
++local map_fcvtd = {
++  shift = 20, mask = 31,
++  [0] = "fcvt.d.wFR", "fcvt.d.wuFR", "fcvt.d.lFR", "fcvt.d.luFR"
++}
++
++local map_fext = {
++  shift = 25, mask = 127,
++  [0] = "fadd.sFGg", [1] = "fadd.dFGg", [4] = "fsub.sFGg", [5] = "fsub.dFGg",
++  [8] = "fmul.sFGg", [9] = "fmul.dFGg", [12] = "fdiv.sFGg", [13] = "fdiv.dFGg",
++  [16] = map_fsgnjs, [17] = map_fsgnjd, [20] = map_fms, [21] = map_fmd,
++  [32] = "fcvt.s.dFG", [33] = "fcvt.d.sFG",[44] = "fsqrt.sFG", [45] = "fsqrt.dFG",
++  [80] = map_fcomps, [81] = map_fcompd, [96] = map_fcvtwls, [97] = map_fcvtwld,
++  [104] = map_fcvts, [105] = map_fcvtd,
++  [112] = {
++    shift = 12, mask = 7,
++    [0] = "fmv.x.wDG", "fclass.sDG"
++  },
++  [113] = {
++  shift = 12, mask = 7,
++    [0] = "fmv.x.dDG", "fclass.dDG"
++  },
++  [120] = "fmv.w.xFR", [121] = "fmv.d.xFR"
++}
++
++--RV32A, RV64A
++local map_aext = {
++  shift = 27, mask = 31,
++  [0] = {
++    shift = 12, mask = 7,
++    [2] = "amoadd.wDrO", [3] = "amoadd.dDrO"
++  },
++  {
++    shift = 12, mask = 7,
++    [2] = "amoswap.wDrO", [3] = "amoswap.dDrO"
++  },
++  {
++    shift = 12, mask = 7,
++    [2] = "lr.wDO", [3] = "lr.dDO"
++  },
++  {
++    shift = 12, mask = 7,
++    [2] = "sc.wDrO", [3] = "sc.dDrO"
++  },
++  {
++    shift = 12, mask = 7,
++    [2] = "amoxor.wDrO", [3] = "amoxor.dDrO"
++  },
++  [8] = {
++    shift = 12, mask = 7,
++    [2] = "amoor.wDrO", [3] = "amoor.dDrO"
++  },
++  [12] = {
++    shift = 12, mask = 7,
++    [2] = "amoand.wDrO", [3] = "amoand.dDrO"
++  },
++  [16] = {
++    shift = 12, mask = 7,
++    [2] = "amomin.wDrO", [3] = "amomin.dDrO"
++  },
++  [20] = {
++    shift = 12, mask = 7,
++    [2] = "amomax.wDrO", [3] = "amomax.dDrO"
++  },
++  [24] = {
++    shift = 12, mask = 7,
++    [2] = "amominu.wDrO", [3] = "amominu.dDrO"
++  },
++  [28] = {
++   shift = 12, mask = 7,
++   [2] = "amomaxu.wDrO", [3] = "amomaxu.dDrO"
++  },
++}
++
++-- RV32I, RV64I
++local map_load = {
++  shift = 12, mask = 7,
++  [0] = "lbDL", "lhDL", "lwDL", "ldDL",
++  "lbuDL", "lhuDL", "lwuDL"
++}
++
++local map_ali = {
++  shift = 12, mask = 7,
++  [0] = {
++    shift = 7, mask = 0x1ffffff,
++    [0] = "nop", _ = "addi|li|mvDR0I2"
++  }
++  ,"slliDRi", "sltiDRI", "sltiu|seqzDRI5",
++  "xori|notDRI4",
++  {
++    shift = 26, mask = 63,
++    [0] = "srliDRi", [16] = "sraiDRi"
++  },
++  "oriDRI", "andiDRI"
++}
++
++local map_branch = {
++  shift = 12, mask = 7,
++  [0] = "beq|beqzRr0B", "bne|bnezRr0B" , false, false,
++  "blt|bgtz|bltzR0r2B", "bge|blez|bgezR0r2B", "bltuRrB", "bgeuRrB"
++}
++
++local map_store = {
++  shift = 12, mask = 7,
++  [0] = "sbSr", "shSr", "swSr", "sdSr"
++}
++
++local map_al = {
++  shift = 25, mask = 127,
++  [0] = {
++    shift = 12, mask = 7,
++    [0] = "addDRr", "sllDRr", "slt|sgtz|sltzDR0r2", "sltu|snezDR0r",
++    "xorDRr", "srlDRr", "orDRr", "andDRr"
++  },
++  map_mext,
++  [32] = {
++    shift = 12, mask = 7,
++    [0] = "sub|negDR0r", [5] = "sraDRr"
++  }
++}
++
++--64I
++local map_addi_shift = {
++  shift = 12, mask = 7,
++  [0] = "addiw|sext.wDRI0", "slliwDRi",
++  [5] = {
++    shift = 25, mask = 127,
++    [0] = "srliwDRi", [32] = "sraiwDRi"
++  }
++}
++
++local map_arithw_shiftw = {
++  shift = 25, mask = 127,
++  [0] = {
++    shift = 12, mask = 7,
++    [0] = "addwDRr", [1] = "sllwDRr", [5] = "srlwDRr"
++  },
++  [1] = map_mext64,
++  [32] = {
++    shift = 12, mask = 7,
++    [0] = "subw|negwDR0r", [5] = "srawDRr"
++  }
++}
++
++local map_ecabre = {
++  shift = 12, mask = 7,
++  [0] = {
++   shift = 20, mask = 4095,
++   [0] = "ecall", "ebreak"
++  }
++}
++
++local map_fence = {
++  shift = 12, mask = 1,
++  [0] = "fence", --"fence.i" ZIFENCEI EXTENSION
++}
++
++local map_jalr = {
++  shift = 7, mask = 0x1ffffff,
++  _ = "jalr|jrDRI7", [256] = "ret"
++}
++
++local map_pri = {
++  [3] = map_load, [7] = map_fload, [15] = map_fence, [19] = map_ali,
++  [23] = "auipcDU", [27] = map_addi_shift,
++  [35] = map_store, [39] = map_fstore, [47] = map_aext, [51] = map_al,
++  [55] = "luiDU", [59] = map_arithw_shiftw, [67] = map_fmadd, [71] = map_fmsub,
++  [75] = map_fnmsub, [99] = map_branch, [79] = map_fnmadd, [83] = map_fext,
++  [103] = map_jalr, [111] = "jal|j|D0J", [115] = map_ecabre
++}
++
++------------------------------------------------------------------------------
++
++local map_gpr = {
++  [0] = "zero", "ra", "sp", "gp", "tp", "x5", "x6", "x7",
++  "x8", "x9", "x10", "x11", "x12", "x13", "x14", "x15",
++  "x16", "x17", "x18", "x19", "x20", "x21", "x22", "x23",
++  "x24", "x25", "x26", "x27", "x28", "x29", "x30", "x31",
++}
++
++local map_fgpr = {
++  [0] = "f0", "f1", "f2", "f3", "f4", "f5", "f6", "f7",
++  "f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15",
++  "f16", "f17", "f18", "f19", "f20", "f21", "f22", "f23",
++  "f24", "f25", "f26", "f27", "f28", "f29", "f30", "f31",
++}
++
++------------------------------------------------------------------------------
++
++-- Output a nicely formatted line with an opcode and operands.
++local function putop(ctx, text, operands)
++  local pos = ctx.pos
++	local extra = ""
++  if ctx.rel then
++    local sym = ctx.symtab[ctx.rel]
++    if sym then extra = "\t->"..sym end
++  end
++  if ctx.hexdump > 0 then
++    ctx.out:write((format("%08x  %s  %-7s %s%s\n",
++    ctx.addr+pos, tohex(ctx.op), text, concat(operands, ","), extra)))
++  else
++    ctx.out(format("%08x  %-7s %s%s\n",
++    ctx.addr+pos, text, concat(operands, ", "), extra))
++  end
++  local pos = ctx.pos
++  local first_byte = byte(ctx.code, ctx.pos+1)
++  --Examine if the next instruction is 16-bits or 32-bits
++  if(band(first_byte, 3) < 3) then
++    ctx.pos = pos + 2
++  else
++    ctx.pos = pos + 4
++  end
++end
++
++-- Fallback for unknown opcodes.
++local function unknown(ctx)
++  return putop(ctx, ".long", { "0x"..tohex(ctx.op) })
++end
++
++local function get_le(ctx)
++  local pos = ctx.pos
++  --Examine if the next instruction is 16-bits or 32-bits
++  local first_byte = byte(ctx.code, pos+1)
++  if(band(first_byte, 3) < 3) then --checking first two bits of opcode
++    local b0, b1 = byte(ctx.code, pos+1, pos+2)
++    return bor(lshift(b1, 8), b0)
++  else
++    local b0, b1, b2, b3 = byte(ctx.code, pos+1, pos+4)
++    return bor(lshift(b3, 24), lshift(b2, 16), lshift(b1, 8), b0)
++  end
++end
++
++local function parse_W(opcode)
++  local part1 = band(rshift(opcode, 7), 15) --9:6
++  local part2 = band(rshift(opcode, 11), 3) --5:4
++  local part3 = band(rshift(opcode, 5), 1)--3
++  local part4 = band(rshift(opcode, 6), 1)--2
++  return bor(lshift(0, 31), lshift(part1, 6) , lshift(part2, 4),
++             lshift(part3, 3), lshift(part4, 2))
++end
++
++local function parse_x(opcode)
++  local part1 = band(rshift(opcode, 12), 1) --5
++  local part2 = band(rshift(opcode, 2), 31) --4:0
++  if(part1 == 1) then
++    return bor(lshift(1, 31), lshift(0x1ffffff, 6), lshift(part1, 5), part2)
++  else
++    return bor(lshift(0, 31), lshift(part1, 5), part2)
++  end
++end
++
++local function parse_X(opcode)
++  local part1 = band(rshift(opcode, 12), 1) --12
++  local part2 = band(rshift(opcode, 3), 3) --8:7
++  local part3 = band(rshift(opcode, 5), 1) --6
++  local part4 = band(rshift(opcode, 2), 1) --5
++  local part5 = band(rshift(opcode, 6), 1) --4
++  if(part1 == 1) then
++    return bor(lshift(1, 31), lshift(0x3fffff, 9), lshift(part2, 7),
++               lshift(part3, 6), lshift(part4, 5), lshift(part5, 4))
++  else
++    return bor(lshift(0, 31), lshift(part2, 7), lshift(part3, 6),
++               lshift(part4, 5), lshift(part5, 4))
++  end
++end
++
++local function parse_S(opcode)
++  local part1 = band(rshift(opcode, 25), 127) --11:5
++  local sign = band(rshift(part1, 6), 1)
++  local part2 = band(rshift(opcode, 7), 31) --4:0
++  if (sign == 1) then
++    return bor(lshift(1, 31), lshift(0x7ffff, 12), lshift(part1, 5), part2)
++  else
++    return bor(lshift(0, 31), lshift(part1, 5), part2)
++  end
++end
++
++local function parse_B(opcode)
++  local part1 = band(rshift(opcode, 7), 1) --11
++  local part2 = band(rshift(opcode, 25), 63) --10:5
++  local part3 = band(rshift(opcode, 8), 15) -- 4 : 1
++  if (part1 == 1) then
++    return bor(lshift(1, 31), lshift(0x7ffff, 12), lshift(part1, 11),
++               lshift(part2, 5), lshift(part3, 1), 0)
++  else
++    return bor(lshift(0, 31), lshift(part1, 11), lshift(part2, 5),
++               lshift(part3, 1), 0)
++  end
++end
++
++local function parse_q(opcode)
++  local part1 = band(rshift(opcode, 12), 1) --8
++  local part2 = band(rshift(opcode, 5), 3) --7:6
++  local part3 = band(rshift(opcode, 2), 1) --5
++  local part4 = band(rshift(opcode, 10), 3) --4:3
++  local part5 = band(rshift(opcode, 3), 3) --2:1
++  if(part1 == 1) then
++    return bor(lshift(1, 31), lshift(0x7fffff, 8), lshift(part2, 6),
++               lshift(part3, 5), lshift(part4, 3), lshift(part5, 1))
++  else
++    return bor(lshift(0, 31), lshift(part2, 6), lshift(part3, 5),
++               lshift(part4, 3), lshift(part5, 1))
++  end
++end
++
++local function parse_J(opcode)
++  local part1 = band(rshift(opcode, 31), 1) --20
++  local part2 = band(rshift(opcode, 12), 255) -- 19:12
++  local part3 = band(rshift(opcode, 20), 1) --11
++  local part4 = band(rshift(opcode, 21), 1023) --10:1
++  if(part1 == 1) then
++    return bor(lshift(1, 31), lshift(0x7ff, 20), lshift(part2, 12),
++               lshift(part3, 11), lshift(part4, 1))
++  else
++    return bor(lshift(0, 31), lshift(0, 20), lshift(part2, 12),
++               lshift(part3, 11), lshift(part4, 1))
++  end
++end
++
++local function parse_T(opcode)
++  local part1 = band(rshift(opcode, 12), 1) --11
++  local part2 = band(rshift(opcode, 8), 1) --10
++  local part3 = band(rshift(opcode, 9), 3)--9:8
++  local part4 = band(rshift(opcode, 6), 1) --7
++  local part5 = band(rshift(opcode, 7), 1) -- 6
++  local part6 = band(rshift(opcode, 2), 1) --5
++  local part7 = band(rshift(opcode, 11), 1) --4
++  local part8 = band(rshift(opcode, 3), 7) --3:1
++  if(part1 == 1) then
++    return bor(lshift(1, 31), lshift(0x7ffff, 12), lshift(part1, 11),
++               lshift(part2, 10), lshift(part3, 8), lshift(part4, 7),
++               lshift(part5, 6), lshift(part6, 5), lshift(part7, 4),
++               lshift(part8, 1))
++  else
++    return bor(lshift(0, 31), lshift(part1, 11), lshift(part2, 10),
++               lshift(part3, 8), lshift(part4, 7), lshift(part5, 6),
++               lshift(part6, 5), lshift(part7, 4), lshift(part8, 1))
++  end
++end
++
++local function parse_K(opcode)
++  local part1 = band(rshift(opcode, 12), 1) --5 17
++  local part2 = band(rshift(opcode, 2), 31) --4:0  16:12
++  if(part1 == 1) then
++    return bor(lshift(0, 31), lshift(0x7fff, 5), part2)
++  else
++    return bor(lshift(0, 31), lshift(part1, 5), part2)
++  end
++end
++
++-- Disassemble a single instruction.
++local function disass_ins(ctx)
++  local op = ctx:get()
++  local operands = {}
++  local last = nil
++  ctx.op = op
++  ctx.rel =nil
++
++  local opat = 0
++  --for compressed instructions
++  if(band(op, 3) < 3) then
++    opat = ctx.map_compr[band(op, 3)]
++    while type(opat) ~= "string" do
++      if not opat then return unknown(ctx) end
++      local test = band(rshift(op, opat.shift), opat.mask)
++      opat = opat[band(rshift(op, opat.shift), opat.mask)] or opat._
++    end
++  else
++    opat = ctx.map_pri[band(op,127)]
++    while type(opat) ~= "string" do
++      if not opat then return unknown(ctx) end
++      opat = opat[band(rshift(op, opat.shift), opat.mask)] or opat._
++    end
++  end
++  local name, pat = match(opat, "^([a-z0-9_.]*)(.*)")
++  local altname, pat2 = match(pat, "|([a-z0-9_.|]*)(.*)")
++  local a1, a2 = 0
++  if altname then
++   pat = pat2
++  end
++
++  local alias_done = false --variable for the case of 2 pseudoinstructions, if both parameters are x0, 0
++
++  for p in gmatch(pat, ".") do
++    local x = nil
++    if p == "D" then
++      x = map_gpr[band(rshift(op, 7), 31)]
++    elseif p == "F" then
++      x = map_fgpr[band(rshift(op, 7), 31)]
++    elseif p == "R" then
++      x = map_gpr[band(rshift(op, 15), 31)]
++    elseif p == "G" then
++      x = map_fgpr[band(rshift(op, 15), 31)]
++    elseif p == "r" then
++      x = map_gpr[band(rshift(op, 20), 31)]
++      if(name == "sb" or name == "sh" or name == "sw" or name == "sd") then
++        local temp = last --because of the diffrent order of the characters
++        operands[#operands] = x
++        x = temp
++      end
++    elseif p == "g" then
++      x = map_fgpr[band(rshift(op, 20), 31)]
++     if(name == "fsw" or name == "fsd") then
++        local temp = last
++        operands[#operands] = x
++        x = temp
++     end
++    elseif p == "A" then
++      x = map_gpr[8 + band(rshift(op, 2), 7)]
++    elseif p == "N" then
++      x = map_fgpr[8 + band(rshift(op, 2), 7)]
++    elseif p == "M" then
++      x = map_gpr[8 + band(rshift(op, 7), 7)]
++    elseif p == "E" then
++      x = map_gpr[band(rshift(op, 2), 31)]
++    elseif p == "W" then
++      local uimm = parse_W(op)
++      x = format("%s,%d", "x2", uimm)
++    elseif p == "x" then
++      x = parse_x(op)
++    elseif p == "h" then
++      local part1 = band(rshift(op, 5), 3) --7:6
++      local part2 = band(rshift(op, 10), 7) --5:3
++      local uimm = bor(lshift(0, 31), lshift(part1, 6) , lshift(part2, 3))
++      operands[#operands] = format("%d(%s)", uimm, last)
++    elseif p == "X" then
++      local imm = parse_X(op)
++      x = format("%s,%d", "x2", imm)
++    elseif p == "O" then
++      x = format("(%s)", map_gpr[band(rshift(op, 15), 31)])
++    elseif p == "H" then
++      x = map_fgpr[band(rshift(op, 27), 31)]
++    elseif p == "L" then
++      local register = map_gpr[band(rshift(op, 15), 31)]
++      local disp = arshift(op, 20)
++      x = format("%d(%s)", disp, register)
++    elseif p == "I" then
++      x = arshift(op, 20)
++      --different for jalr
++      if(name == "jalr") then
++        operands[#operands] = format("%d(%s)", x, last)
++        x = nil --not to add additional operand
++      end
++    elseif p == "i" then
++      --both for RV32I AND RV64I
++      local value = band(arshift(op, 20), 63)
++      x = string.format("0x%x", value)
++    elseif p == "S" then
++      local register = map_gpr[band(rshift(op, 15), 31)] --register
++      local imm = parse_S(op)
++      x = format("%d(%s)", imm, register)
++    elseif p == "n" then
++      local part1 = band(rshift(op, 5), 1) --6
++      local part2 = band(rshift(op, 10), 7) --5:3
++      local part3 = band(rshift(op, 6), 1) --2
++      local uimm = bor(lshift(0, 31), lshift(part1, 6), lshift(part2, 3),
++                       lshift(part3, 2))
++      operands[#operands] = format("%d(%s)", uimm, last)
++    elseif p == "B" then
++      x = parse_B(op)
++    elseif p == "U" then
++      local value = band(rshift(op, 12), 0xfffff)
++      x = string.format("0x%x", value)
++    elseif p == "Q" then
++      local part1 = band(rshift(op, 2), 7) --8:6
++      local part2 = band(rshift(op, 12), 1) --5
++      local part3 = band(rshift(op, 5), 3) --4:3
++      local uimm = bor(lshift(0, 31), lshift(part1, 6), lshift(part2, 5),
++                       lshift(part3, 3))
++      x = format("%d(%s)", uimm, "x2")
++   elseif p == "q" then
++      x = parse_q(op)
++    elseif p == "J" then
++      x = parse_J(op)
++    elseif p == "K" then
++      local value = parse_K(op)
++      x = string.format("0x%x", value)
++    elseif p == "Y" then
++      local part1 = band(rshift(op, 2), 3) --7:6
++      local part2 = band(rshift(op, 12), 1) --5
++      local part3 = band(rshift(op, 4), 7) --4:2
++      local uimm = bor(lshift(0, 31), lshift(part1, 6), lshift(part2, 5),
++                       lshift(part3, 2))
++      x = format("%d(%s)", uimm, "x2")
++    elseif p == "1" then
++      local part1 = band(rshift(op, 12), 1) --5
++      local part2 = band(rshift(op, 2), 31) --4:0
++      local uimm = bor(lshift(0, 31), lshift(part1, 5), part2)
++      x = string.format("0x%x", uimm)
++    elseif p == "T" then
++      x = parse_T(op)
++    elseif p == "t" then
++      local part1 = band(rshift(op, 7), 7) --8:6
++      local part2 = band(rshift(op, 10), 7) --5:3
++      local uimm = bor(lshift(0, 31), lshift(part1, 6), lshift(part2, 3))
++      x = format("%d(%s)", uimm, "x2")
++    elseif p == "u" then
++      local part1 = band(rshift(op, 7), 3) --7:6
++      local part2 = band(rshift(op, 9), 15) --5:2
++      local uimm = bor(lshift(0, 31), lshift(part1, 6), lshift(part2, 2))
++      x = format("%d(%s)", uimm, "x2")
++    elseif p == "V" then
++      x = map_fgpr[band(rshift(op, 2), 31)]
++    elseif p == "0" then --PSEUDOINSTRUCTIONS
++      if (last == "x0" or last == 0) then
++        local n = #operands
++        operands[n] = nil
++        last = operands[n-1]
++        local a1, a2 = match(altname, "([^|]*)|(.*)")
++        if a1 then name, altname = a1, a2
++        else name = altname end
++        alias_done = true
++      end
++    elseif (p == "4") then
++      if(last == -1) then
++        name = altname
++        operands[#operands] = nil
++      end
++    elseif (p == "5") then
++      if(last == 1) then
++        name = altname
++        operands[#operands] = nil
++      end
++    elseif (p == "6") then
++      if(last == operands[#operands - 1]) then
++        name = altname
++        operands[#operands] = nil
++      end
++    elseif (p == "7") then --jalr rs
++      local value = string.sub(operands[#operands], 1, 1)
++      local reg = string.sub(operands[#operands], 3, #(operands[#operands]) - 1)
++      if(value == "0" and
++         (operands[#operands - 1] == "x1" or operands[#operands - 1] == "x0")) then
++        if(operands[#operands - 1] == "x0") then
++          name = altname
++        end
++        operands[#operands] = nil
++        operands[#operands] = reg
++      end
++    elseif (p == "2" and alias_done == false) then
++      if (last == "x0" or last == 0) then
++        local a1, a2 = match(altname, "([^|]*)|(.*)")
++        name = a2
++        operands[#operands] = nil
++      end
++    end
++    if x then operands[#operands+1] = x; last = x end
++  end
++  return putop(ctx, name, operands)
++end
++
++------------------------------------------------------------------------------
++
++-- Disassemble a block of code.
++local function disass_block(ctx, ofs, len)
++  if not ofs then
++    ofs = 0
++  end
++  local stop = len and ofs+len or #ctx.code
++  --instructions can be both 32 and 16 bits
++  stop = stop - stop % 2
++  ctx.pos = ofs - ofs % 2
++  ctx.rel = nil
++  while ctx.pos < stop do disass_ins(ctx) end
++end
++
++-- Extended API: create a disassembler context. Then call ctx:disass(ofs, len).
++local function create(code, addr, out)
++  local ctx = {}
++  ctx.code = code
++  ctx.addr = addr or 0
++  ctx.out = out or io.write
++  ctx.symtab = {}
++  ctx.disass = disass_block
++  ctx.hexdump = 8
++  ctx.get = get_le
++  ctx.map_pri = map_pri
++  ctx.map_compr = map_compr
++  return ctx
++end
++
++-- Simple API: disassemble code (a string) at address and output via out.
++local function disass(code, addr, out)
++  create(code, addr, out):disass(addr)
++end
++
++-- Return register name for RID.
++local function regname(r)
++  if r < 32 then return map_gpr[r] end
++  return "f"..(r-32)
++end
++
++-- Public module functions.
++return {
++  create = create,
++  disass = disass,
++  regname = regname
++}
+diff --git a/bundle/LuaJIT-2.1-20220411/src/jit/dis_riscv64.lua b/bundle/LuaJIT-2.1-20220411/src/jit/dis_riscv64.lua
+new file mode 100644
+index 0000000..ff038d1
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/src/jit/dis_riscv64.lua
+@@ -0,0 +1,16 @@
++----------------------------------------------------------------------------
++-- LuaJIT RISC-V 64 disassembler wrapper module.
++--
++-- Copyright (C) 2005-2022 Mike Pall. All rights reserved.
++-- Released under the MIT license. See Copyright Notice in luajit.h
++----------------------------------------------------------------------------
++-- This module just exports the default riscv little-endian functions from the
++-- RISC-V disassembler module. All the interesting stuff is there.
++------------------------------------------------------------------------------
++
++local dis_riscv = require((string.match(..., ".*%.") or "").."dis_riscv")
++return {
++  create = dis_riscv.create,
++  disass = dis_riscv.disass,
++  regname = dis_riscv.regname
++}
+\ No newline at end of file
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_asm_riscv64.h b/bundle/LuaJIT-2.1-20220411/src/lj_asm_riscv64.h
+new file mode 100644
+index 0000000..e6d68e1
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_asm_riscv64.h
+@@ -0,0 +1,1969 @@
++/*
++** RISC-V IR assembler (SSA IR -> machine code).
++** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h
++*/
++
++/* -- Register allocator extensions --------------------------------------- */
++
++/* Allocate a register with a hint. */
++static Reg ra_hintalloc(ASMState *as, IRRef ref, Reg hint, RegSet allow)
++{
++  Reg r = IR(ref)->r;
++  if (ra_noreg(r)) {
++    if (!ra_hashint(r) && !iscrossref(as, ref))
++      ra_sethint(IR(ref)->r, hint);  /* Propagate register hint. */
++    r = ra_allocref(as, ref, allow);
++  }
++  ra_noweak(as, r);
++  return r;
++}
++
++/* Allocate a register or RID_ZERO. */
++static Reg ra_alloc1z(ASMState *as, IRRef ref, RegSet allow)
++{
++  Reg r = IR(ref)->r;
++  if (ra_noreg(r)) {
++    if (!(allow & RSET_FPR) && irref_isk(ref) && get_kval(as, ref) == 0)
++      return RID_ZERO;
++    r = ra_allocref(as, ref, allow);
++  } else {
++    ra_noweak(as, r);
++  }
++  return r;
++}
++
++/* Allocate two source registers for three-operand instructions. */
++static Reg ra_alloc2(ASMState *as, IRIns *ir, RegSet allow)
++{
++  IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
++  Reg left = irl->r, right = irr->r;
++  if (ra_hasreg(left)) {
++    ra_noweak(as, left);
++    if (ra_noreg(right))
++      right = ra_alloc1z(as, ir->op2, rset_exclude(allow, left));
++    else
++      ra_noweak(as, right);
++  } else if (ra_hasreg(right)) {
++    ra_noweak(as, right);
++    left = ra_alloc1z(as, ir->op1, rset_exclude(allow, right));
++  } else if (ra_hashint(right)) {
++    right = ra_alloc1z(as, ir->op2, allow);
++    left = ra_alloc1z(as, ir->op1, rset_exclude(allow, right));
++  } else {
++    left = ra_alloc1z(as, ir->op1, allow);
++    right = ra_alloc1z(as, ir->op2, rset_exclude(allow, left));
++  }
++  return left | (right << 8);
++}
++
++/* -- Guard handling ------------------------------------------------------ */
++
++/* Copied from MIPS, AUIPC+JALR is expensive to setup in-place */
++#define RISCV_SPAREJUMP		4
++
++/* Setup spare long-range jump (trampoline?) slots per mcarea. */
++
++static void asm_sparejump_setup(ASMState *as)
++{
++  MCode *mxp = as->mctop;
++  if ((char *)mxp == (char *)as->J->mcarea + as->J->szmcarea) {
++    for (int i = RISCV_SPAREJUMP*2; i--; )
++      *--mxp = RISCVI_EBREAK;
++    as->mctop = mxp;
++  }
++}
++
++static MCode *asm_sparejump_use(MCode *mcarea, MCode *target)
++{
++  MCode *mxp = (MCode *)((char *)mcarea + ((MCLink *)mcarea)->size);
++  int slot = RISCV_SPAREJUMP;
++  RISCVIns tslot = RISCVI_EBREAK, tauipc, tjalr;
++  while (slot--) {
++    mxp -= 2;
++    ptrdiff_t delta = (char *)target - (char *)mxp;
++    tauipc = RISCVI_AUIPC | RISCVF_D(RID_TMP) | RISCVF_IMMU(RISCVF_HI(delta)),
++    tjalr = RISCVI_JALR | RISCVF_S1(RID_TMP) | RISCVF_IMMI(RISCVF_LO(delta));
++    if (mxp[0] == tauipc && mxp[1] == tjalr) {
++      return mxp;
++    } else if (mxp[0] == tslot) {
++      mxp[0] = tauipc, mxp[1] = tjalr;
++      return mxp;
++    }
++  }
++  return NULL;
++}
++
++/* Setup exit stub after the end of each trace. */
++static void asm_exitstub_setup(ASMState *as, ExitNo nexits)
++{
++  ExitNo i;
++  MCode *mxp = as->mctop;
++  if (mxp - (nexits + 4 + MCLIM_REDZONE) < as->mclim)
++    asm_mclimit(as);
++  for (i = nexits-1; (int32_t)i >= 0; i--)
++    *--mxp = RISCVI_JAL | RISCVF_D(RID_RA) | RISCVF_IMMJ((uintptr_t)(4*(-4-i)));
++  ptrdiff_t delta = (char *)lj_vm_exit_handler - (char *)(mxp-3);
++  /* 1: sw ra, 0(sp); auipc+jalr ->vm_exit_handler; lui x0, traceno; jal <1; jal <1; ... */
++  *--mxp = RISCVI_LUI | RISCVF_IMMU(as->T->traceno);
++  *--mxp = RISCVI_JALR | RISCVF_D(RID_RA) | RISCVF_S1(RID_TMP)
++         | RISCVF_IMMI(RISCVF_LO((uintptr_t)(void *)delta));
++  *--mxp = RISCVI_AUIPC | RISCVF_D(RID_TMP)
++         | RISCVF_IMMU(RISCVF_HI((uintptr_t)(void *)delta));
++  *--mxp = RISCVI_SD | RISCVF_S2(RID_RA) | RISCVF_S1(RID_SP);
++  as->mctop = mxp;
++}
++
++static MCode *asm_exitstub_addr(ASMState *as, ExitNo exitno)
++{
++  /* Keep this in-sync with exitstub_trace_addr(). */
++  return as->mctop + exitno + 4;
++}
++
++/* Emit conditional branch to exit for guard. */
++static void asm_guard(ASMState *as, RISCVIns riscvi, Reg rs1, Reg rs2)
++{
++  MCode *target = asm_exitstub_addr(as, as->snapno);
++  MCode *p = as->mcp;
++  if (LJ_UNLIKELY(p == as->invmcp)) {
++    as->loopinv = 1;
++    as->mcp = ++p;
++    *p = RISCVI_JAL | RISCVF_IMMJ((char *)target - (char *)p);
++    riscvi = riscvi^RISCVF_FUNCT3(1);  /* Invert cond. */
++    target = p - 1;  /* Patch target later in asm_loop_fixup. */
++  }
++    ptrdiff_t delta = (char *)target - (char *)(p - 1);
++    *--p = RISCVI_JAL | RISCVF_IMMJ(delta);
++    *--p = (riscvi^RISCVF_FUNCT3(1)) | RISCVF_S1(rs1) | RISCVF_S2(rs2) | RISCVF_IMMB(8);
++    as->mcp = p;
++}
++
++/* -- Operand fusion ------------------------------------------------------ */
++
++/* Limit linear search to this distance. Avoids O(n^2) behavior. */
++#define CONFLICT_SEARCH_LIM	31
++
++/* Check if there's no conflicting instruction between curins and ref. */
++static int noconflict(ASMState *as, IRRef ref, IROp conflict)
++{
++  IRIns *ir = as->ir;
++  IRRef i = as->curins;
++  if (i > ref + CONFLICT_SEARCH_LIM)
++    return 0;  /* Give up, ref is too far away. */
++  while (--i > ref)
++    if (ir[i].o == conflict)
++      return 0;  /* Conflict found. */
++  return 1;  /* Ok, no conflict. */
++}
++
++/* Fuse the array base of colocated arrays. */
++static int32_t asm_fuseabase(ASMState *as, IRRef ref)
++{
++  IRIns *ir = IR(ref);
++  if (ir->o == IR_TNEW && ir->op1 <= LJ_MAX_COLOSIZE &&
++      !neverfuse(as) && noconflict(as, ref, IR_NEWREF))
++    return (int32_t)sizeof(GCtab);
++  return 0;
++}
++
++/* Fuse array/hash/upvalue reference into register+offset operand. */
++static Reg asm_fuseahuref(ASMState *as, IRRef ref, int32_t *ofsp, RegSet allow)
++{
++  IRIns *ir = IR(ref);
++  if (ra_noreg(ir->r)) {
++    if (ir->o == IR_AREF) {
++      if (mayfuse(as, ref)) {
++	if (irref_isk(ir->op2)) {
++	  IRRef tab = IR(ir->op1)->op1;
++	  int32_t ofs = asm_fuseabase(as, tab);
++	  IRRef refa = ofs ? tab : ir->op1;
++	  ofs += 8*IR(ir->op2)->i;
++	  if (checki12(ofs)) {
++	    *ofsp = ofs;
++	    return ra_alloc1(as, refa, allow);
++	  }
++	}
++      }
++    } else if (ir->o == IR_HREFK) {
++      if (mayfuse(as, ref)) {
++	int32_t ofs = (int32_t)(IR(ir->op2)->op2 * sizeof(Node));
++	if (checki12(ofs)) {
++	  *ofsp = ofs;
++	  return ra_alloc1(as, ir->op1, allow);
++	}
++      }
++    } else if (ir->o == IR_UREFC) {
++      if (irref_isk(ir->op1)) {
++	GCfunc *fn = ir_kfunc(IR(ir->op1));
++	GCupval *uv = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv;
++  intptr_t ofs = ((intptr_t)((uintptr_t)(&uv->tv) - (uintptr_t)&J2GG(as->J)->g));
++	if (checki12(ofs)) {
++	  *ofsp = (int32_t)ofs;
++	  return RID_GL;
++	}
++      }
++    } else if (ir->o == IR_TMPREF) {
++      *ofsp = (int32_t)offsetof(global_State, tmptv);
++      return RID_GL;
++    }
++  }
++  *ofsp = 0;
++  return ra_alloc1(as, ref, allow);
++}
++
++/* Fuse XLOAD/XSTORE reference into load/store operand. */
++static void asm_fusexref(ASMState *as, RISCVIns riscvi, Reg rd, IRRef ref,
++			 RegSet allow, int32_t ofs)
++{
++  IRIns *ir = IR(ref);
++  Reg base;
++  if (ra_noreg(ir->r) && canfuse(as, ir)) {
++    intptr_t ofs2;
++    if (ir->o == IR_ADD) {
++      if (irref_isk(ir->op2) && (ofs2 = ofs + get_kval(as, ir->op2),
++				 checki12(ofs2))) {
++	ref = ir->op1;
++	ofs = (int32_t)ofs2;
++      }
++    } else if (ir->o == IR_STRREF) {
++      ofs2 = 4096;
++      lj_assertA(ofs == 0, "bad usage");
++      ofs = (int32_t)sizeof(GCstr);
++      if (irref_isk(ir->op2)) {
++	ofs2 = ofs + get_kval(as, ir->op2);
++	ref = ir->op1;
++      } else if (irref_isk(ir->op1)) {
++	ofs2 = ofs + get_kval(as, ir->op1);
++	ref = ir->op2;
++      }
++      if (!checki12(ofs2)) {
++        /* NYI: Fuse ADD with constant. */
++        Reg right, left = ra_alloc2(as, ir, allow);
++        right = (left >> 8); left &= 255;
++        emit_lso(as, riscvi, rd, RID_TMP, ofs);
++        emit_ds1s2(as, RISCVI_ADD, RID_TMP, left, right);
++        return;
++      }
++      ofs = ofs2;
++    }
++  }
++  base = ra_alloc1(as, ref, allow);
++  emit_lso(as, riscvi, rd, base, ofs);
++}
++
++/* Fuse Integer multiply-accumulate. */
++
++static int asm_fusemac(ASMState *as, IRIns *ir, RISCVIns riscvi)
++{
++  IRRef lref = ir->op1, rref = ir->op2;
++  IRIns *irm;
++  if (lref != rref &&
++      ((mayfuse(as, lref) && (irm = IR(lref), irm->o == IR_MUL) &&
++       ra_noreg(irm->r)) ||
++       (mayfuse(as, rref) && (irm = IR(rref), irm->o == IR_MUL) &&
++       (rref = lref, ra_noreg(irm->r))))) {
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg add = ra_hintalloc(as, rref, dest, RSET_GPR);
++    Reg left = ra_alloc2(as, irm,
++       rset_exclude(rset_exclude(RSET_GPR, dest), add));
++    Reg right = (left >> 8); left &= 255;
++    emit_ds1s2(as, riscvi, dest, left, right);
++    if (dest != add) emit_mv(as, dest, add);
++    return 1;
++  }
++  return 0;
++}
++
++/* Fuse FP multiply-add/sub. */
++
++static int asm_fusemadd(ASMState *as, IRIns *ir, RISCVIns riscvi, RISCVIns riscvir)
++{
++  IRRef lref = ir->op1, rref = ir->op2;
++  IRIns *irm;
++  if (lref != rref &&
++      ((mayfuse(as, lref) && (irm = IR(lref), irm->o == IR_MUL) &&
++       ra_noreg(irm->r)) ||
++       (mayfuse(as, rref) && (irm = IR(rref), irm->o == IR_MUL) &&
++       (rref = lref, riscvi = riscvir, ra_noreg(irm->r))))) {
++    Reg dest = ra_dest(as, ir, RSET_FPR);
++    Reg add = ra_hintalloc(as, rref, dest, RSET_FPR);
++    Reg left = ra_alloc2(as, irm, rset_exclude(rset_exclude(RSET_FPR, dest), add));
++    Reg right = (left >> 8); left &= 255;
++    emit_ds1s2s3(as, riscvi, (dest & 0x1f), (left & 0x1f), (right & 0x1f), (add & 0x1f));
++    return 1;
++  }
++  return 0;
++}
++/* -- Calls --------------------------------------------------------------- */
++
++/* Generate a call to a C function. */
++static void asm_gencall(ASMState *as, const CCallInfo *ci, IRRef *args)
++{
++  uint32_t n, nargs = CCI_XNARGS(ci);
++  int32_t ofs = 0;
++  Reg gpr, fpr = REGARG_FIRSTFPR;
++  if ((void *)ci->func)
++    emit_call(as, (void *)ci->func, 1);
++  for (gpr = REGARG_FIRSTGPR; gpr <= REGARG_LASTGPR; gpr++)
++    as->cost[gpr] = REGCOST(~0u, ASMREF_L);
++  gpr = REGARG_FIRSTGPR;
++  for (n = 0; n < nargs; n++) { /* Setup args. */
++    IRRef ref = args[n];
++    IRIns *ir = IR(ref);
++    if (ref) {
++      if (irt_isfp(ir->t)) {
++        if (fpr <= REGARG_LASTFPR) {
++	  lj_assertA(rset_test(as->freeset, fpr),
++	             "reg %d not free", fpr);  /* Must have been evicted. */
++          ra_leftov(as, fpr, ref);
++	  fpr++; if(ci->flags & CCI_VARARG) gpr++;
++	} else if (!(ci->flags & CCI_VARARG) && gpr <= REGARG_LASTGPR) {
++	  lj_assertA(rset_test(as->freeset, gpr),
++	             "reg %d not free", gpr);  /* Must have been evicted. */
++          ra_leftov(as, gpr, ref);
++	  gpr++;
++	} else {
++	  Reg r = ra_alloc1(as, ref, RSET_FPR);
++	  emit_spstore(as, ir, r, ofs);
++	  ofs += 8;
++	}
++      } else {
++        if (gpr <= REGARG_LASTGPR) {
++	  lj_assertA(rset_test(as->freeset, gpr),
++	             "reg %d not free", gpr);  /* Must have been evicted. */
++          ra_leftov(as, gpr, ref);
++	  gpr++; if(ci->flags & CCI_VARARG) fpr++;
++	} else {
++	  Reg r = ra_alloc1z(as, ref, RSET_GPR);
++	  emit_spstore(as, ir, r, ofs);
++	  ofs += 8;
++	}
++      }
++    }
++  }
++}
++
++/* Setup result reg/sp for call. Evict scratch regs. */
++static void asm_setupresult(ASMState *as, IRIns *ir, const CCallInfo *ci)
++{
++  RegSet drop = RSET_SCRATCH;
++  int hiop = ((ir+1)->o == IR_HIOP && !irt_isnil((ir+1)->t));
++  if (ra_hasreg(ir->r))
++    rset_clear(drop, ir->r);  /* Dest reg handled below. */
++  if (hiop && ra_hasreg((ir+1)->r))
++    rset_clear(drop, (ir+1)->r);  /* Dest reg handled below. */
++  ra_evictset(as, drop);  /* Evictions must be performed first. */
++  if (ra_used(ir)) {
++    lj_assertA(!irt_ispri(ir->t), "PRI dest");
++    if (irt_isfp(ir->t)) {
++      if ((ci->flags & CCI_CASTU64)) {
++        Reg dest = ra_dest(as, ir, RSET_FPR);
++  emit_ds(as, irt_isnum(ir->t) ? RISCVI_FMV_D_X : RISCVI_FMV_W_X,
++	        dest, RID_RET);
++      } else {
++	ra_destreg(as, ir, RID_FPRET);
++      }
++    } else if (hiop) {
++      ra_destpair(as, ir);
++    } else {
++      ra_destreg(as, ir, RID_RET);
++    }
++  }
++}
++
++static void asm_callx(ASMState *as, IRIns *ir)
++{
++  IRRef args[CCI_NARGS_MAX*2];
++  CCallInfo ci;
++  IRRef func;
++  IRIns *irf;
++  ci.flags = asm_callx_flags(as, ir);
++  asm_collectargs(as, ir, &ci, args);
++  asm_setupresult(as, ir, &ci);
++  func = ir->op2; irf = IR(func);
++  if (irf->o == IR_CARG) { func = irf->op1; irf = IR(func); }
++  if (irref_isk(func)) {  /* Call to constant address. */
++    ci.func = (ASMFunction)(void *)get_kval(as, func);
++  } else {  /* Need specific register for indirect calls. */
++    Reg r = ra_alloc1(as, func, RID2RSET(RID_CFUNCADDR));
++    MCode *p = as->mcp;
++    *--p = RISCVI_JALR | RISCVF_D(RID_RA) | RISCVF_S1(r);
++    if (r == RID_CFUNCADDR)
++      *--p = RISCVI_ADDI | RISCVF_D(RID_CFUNCADDR) | RISCVF_S1(r);
++    else
++      *--p = RISCVI_MV | RISCVF_D(RID_CFUNCADDR) | RISCVF_S1(r);
++    as->mcp = p;
++    ci.func = (ASMFunction)(void *)0;
++  }
++  asm_gencall(as, &ci, args);
++}
++
++static void asm_callround(ASMState *as, IRIns *ir, IRCallID id)
++{
++  /* The modified regs must match with the *.dasc implementation. */
++  RegSet drop = RID2RSET(RID_X6)|RID2RSET(RID_X7)|RID2RSET(RID_F10)|
++                RID2RSET(RID_F14)|RID2RSET(RID_F1)|RID2RSET(RID_F3)|
++                RID2RSET(RID_F4);
++  if (ra_hasreg(ir->r)) rset_clear(drop, ir->r);
++  ra_evictset(as, drop);
++  ra_destreg(as, ir, RID_FPRET);
++  emit_call(as, (void *)lj_ir_callinfo[id].func, 0);
++  ra_leftov(as, REGARG_FIRSTFPR, ir->op1);
++}
++
++/* -- Returns ------------------------------------------------------------- */
++
++/* Return to lower frame. Guard that it goes to the right spot. */
++static void asm_retf(ASMState *as, IRIns *ir)
++{
++  Reg base = ra_alloc1(as, REF_BASE, RSET_GPR);
++  void *pc = ir_kptr(IR(ir->op2));
++  int32_t delta = 1+LJ_FR2+bc_a(*((const BCIns *)pc - 1));
++  as->topslot -= (BCReg)delta;
++  if ((int32_t)as->topslot < 0) as->topslot = 0;
++  irt_setmark(IR(REF_BASE)->t);  /* Children must not coalesce with BASE reg. */
++  emit_setgl(as, base, jit_base);
++  emit_addptr(as, base, -8*delta);
++  asm_guard(as, RISCVI_BNE, RID_TMP,
++	    ra_allock(as, igcptr(pc), rset_exclude(RSET_GPR, base)));
++  emit_lso(as, RISCVI_LD, RID_TMP, base, -8);
++}
++
++/* -- Buffer operations --------------------------------------------------- */
++
++#if LJ_HASBUFFER
++static void asm_bufhdr_write(ASMState *as, Reg sb)
++{
++  Reg tmp = ra_scratch(as, rset_exclude(RSET_GPR, sb));
++  IRIns irgc;
++  irgc.ot = IRT(0, IRT_PGC);  /* GC type. */
++  emit_storeofs(as, &irgc, RID_TMP, sb, offsetof(SBuf, L));
++  emit_ds1s2(as, RISCVI_OR, RID_TMP, RID_TMP, tmp);
++  emit_dsi(as, RISCVI_ANDI, tmp, tmp, SBUF_MASK_FLAG);
++  emit_getgl(as, RID_TMP, cur_L);
++  emit_loadofs(as, &irgc, tmp, sb, offsetof(SBuf, L));
++}
++#endif
++
++/* -- Type conversions ---------------------------------------------------- */
++
++static void asm_tointg(ASMState *as, IRIns *ir, Reg left)
++{
++  Reg tmp = ra_scratch(as, rset_exclude(RSET_FPR, left));
++  Reg dest = ra_dest(as, ir, RSET_GPR), cmp = ra_scratch(as, rset_exclude(RSET_GPR, dest));
++  asm_guard(as, RISCVI_BEQ, cmp, RID_ZERO);
++  emit_ds1s2(as, RISCVI_FEQ_D, cmp, tmp, left);
++  emit_ds(as, RISCVI_FCVT_D_W, tmp, dest);
++  emit_ds(as, RISCVI_FCVT_W_D, dest, left);
++}
++
++static void asm_tobit(ASMState *as, IRIns *ir)
++{
++  RegSet allow = RSET_FPR;
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  Reg left = ra_alloc1(as, ir->op1, allow);
++  Reg right = ra_alloc1(as, ir->op2, rset_clear(allow, left));
++  Reg tmp = ra_scratch(as, rset_clear(allow, right));
++  emit_ds(as, RISCVI_FMV_X_W, dest, tmp);
++  emit_ds1s2(as, RISCVI_FADD_D, tmp, left, right);
++}
++
++static void asm_conv(ASMState *as, IRIns *ir)
++{
++  IRType st = (IRType)(ir->op2 & IRCONV_SRCMASK);
++  int st64 = (st == IRT_I64 || st == IRT_U64 || st == IRT_P64);
++  int stfp = (st == IRT_NUM || st == IRT_FLOAT);
++  IRRef lref = ir->op1;
++  lj_assertA(irt_type(ir->t) != st, "inconsistent types for CONV");
++  /* Use GPR to pass floating-point arguments */
++  if (irt_isfp(ir->t) && ir->r >= RID_X10 && ir->r <= RID_X17) {
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg ftmp = ra_scratch(as, RSET_FPR);
++    if (stfp) {  /* FP to FP conversion. */
++      emit_ds(as, st == IRT_NUM ? RISCVI_FMV_X_W : RISCVI_FMV_X_D, dest, ftmp);
++      emit_ds(as, st == IRT_NUM ? RISCVI_FCVT_S_D : RISCVI_FCVT_D_S,
++        ftmp, ra_alloc1(as, lref, RSET_FPR));
++    } else {  /* Integer to FP conversion. */
++      Reg left = ra_alloc1(as, lref, RSET_GPR);
++      RISCVIns riscvi = irt_isfloat(ir->t) ?
++  (((IRT_IS64 >> st) & 1) ?
++   (st == IRT_I64 ? RISCVI_FCVT_S_L : RISCVI_FCVT_S_LU) :
++   (st == IRT_INT ? RISCVI_FCVT_S_W : RISCVI_FCVT_S_WU)) :
++  (((IRT_IS64 >> st) & 1) ?
++   (st == IRT_I64 ? RISCVI_FCVT_D_L : RISCVI_FCVT_D_LU) :
++   (st == IRT_INT ? RISCVI_FCVT_D_W : RISCVI_FCVT_D_WU));
++      emit_ds(as, st64 ? RISCVI_FMV_X_D : RISCVI_FMV_X_W, dest, ftmp);
++      emit_ds(as, riscvi, ftmp, left);
++    }
++  } else if (irt_isfp(ir->t)) {
++    Reg dest = ra_dest(as, ir, RSET_FPR);
++    if (stfp) {  /* FP to FP conversion. */
++      emit_ds(as, st == IRT_NUM ? RISCVI_FCVT_S_D : RISCVI_FCVT_D_S,
++	      dest, ra_alloc1(as, lref, RSET_FPR));
++    } else {  /* Integer to FP conversion. */
++      Reg left = ra_alloc1(as, lref, RSET_GPR);
++      RISCVIns riscvi = irt_isfloat(ir->t) ?
++  (((IRT_IS64 >> st) & 1) ?
++   (st == IRT_I64 ? RISCVI_FCVT_S_L : RISCVI_FCVT_S_LU) :
++   (st == IRT_INT ? RISCVI_FCVT_S_W : RISCVI_FCVT_S_WU)) :
++  (((IRT_IS64 >> st) & 1) ?
++   (st == IRT_I64 ? RISCVI_FCVT_D_L : RISCVI_FCVT_D_LU) :
++   (st == IRT_INT ? RISCVI_FCVT_D_W : RISCVI_FCVT_D_WU));
++      emit_ds(as, riscvi, dest, left);
++    }
++  } else if (stfp) {  /* FP to integer conversion. */
++    if (irt_isguard(ir->t)) {
++      /* Checked conversions are only supported from number to int. */
++      lj_assertA(irt_isint(ir->t) && st == IRT_NUM,
++		 "bad type for checked CONV");
++      asm_tointg(as, ir, ra_alloc1(as, lref, RSET_FPR));
++    } else {
++      Reg left = ra_alloc1(as, lref, RSET_FPR);
++      Reg dest = ra_dest(as, ir, RSET_GPR);
++      RISCVIns riscvi = irt_is64(ir->t) ?
++  (st == IRT_NUM ?
++   (irt_isi64(ir->t) ? RISCVI_FCVT_L_D : RISCVI_FCVT_LU_D) :
++   (irt_isi64(ir->t) ? RISCVI_FCVT_L_S : RISCVI_FCVT_LU_S)) :
++  (st == IRT_NUM ?
++   (irt_isint(ir->t) ? RISCVI_FCVT_W_D : RISCVI_FCVT_WU_D) :
++   (irt_isint(ir->t) ? RISCVI_FCVT_W_S : RISCVI_FCVT_WU_S));
++      emit_ds(as, riscvi|RISCVF_RM(RISCVRM_RTZ), dest, left);
++    }
++  } else if (st >= IRT_I8 && st <= IRT_U16) { /* Extend to 32 bit integer. */
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg left = ra_alloc1(as, lref, RSET_GPR);
++    RISCVIns riscvi = st == IRT_I8 ? RISCVI_SEXT_B :
++    st == IRT_U8 ? RISCVI_ZEXT_B :
++    st == IRT_I16 ? RISCVI_SEXT_H : RISCVI_ZEXT_H;
++    lj_assertA(irt_isint(ir->t) || irt_isu32(ir->t), "bad type for CONV EXT");
++    emit_ext(as, riscvi, dest, left);
++  } else {  /* 32/64 bit integer conversions. */
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    if (irt_is64(ir->t)) {
++	    if (st64) {
++	/* 64/64 bit no-op (cast)*/
++	ra_leftov(as, dest, lref);  /* Do nothing, but may need to move regs. */
++      } else {  /* 32 to 64 bit sign extension. */
++	Reg left = ra_alloc1(as, lref, RSET_GPR);
++	  if ((ir->op2 & IRCONV_SEXT)) {  /* 32 to 64 bit sign extension. */
++	    emit_ext(as, RISCVI_SEXT_W, dest, left);
++	  } else {  /* 32 to 64 bit zero extension. */
++	    emit_ext(as, RISCVI_ZEXT_W, dest, left);
++	  }
++	    }
++    } else {
++	    if (st64 && !(ir->op2 & IRCONV_NONE)) {
++	/* This is either a 32 bit reg/reg mov which zeroes the hiword
++	** or a load of the loword from a 64 bit address.
++	*/
++	Reg left = ra_alloc1(as, lref, RSET_GPR);
++	emit_ext(as, RISCVI_ZEXT_W, dest, left);
++	    } else {  /* 32/32 bit no-op (cast). */
++	ra_leftov(as, dest, lref);  /* Do nothing, but may need to move regs. */
++    	}
++    }
++  }
++}
++
++static void asm_strto(ASMState *as, IRIns *ir)
++{
++  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_strscan_num];
++  IRRef args[2];
++  int32_t ofs = SPOFS_TMP;
++  RegSet drop = RSET_SCRATCH;
++  if (ra_hasreg(ir->r)) rset_set(drop, ir->r);  /* Spill dest reg (if any). */
++  ra_evictset(as, drop);
++  if (ir->s) ofs = sps_scale(ir->s);
++  asm_guard(as, RISCVI_BEQ, RID_RET, RID_ZERO);  /* Test return status. */
++  args[0] = ir->op1;      /* GCstr *str */
++  args[1] = ASMREF_TMP1;  /* TValue *n  */
++  asm_gencall(as, ci, args);
++  /* Store the result to the spill slot or temp slots. */
++  Reg tmp = ra_releasetmp(as, ASMREF_TMP1);
++  emit_opk(as, RISCVI_ADDI, tmp, RID_SP, ofs);
++}
++
++/* -- Memory references --------------------------------------------------- */
++
++/* Store tagged value for ref at base+ofs. */
++static void asm_tvstore64(ASMState *as, Reg base, int32_t ofs, IRRef ref)
++{
++  RegSet allow = rset_exclude(RSET_GPR, base);
++  IRIns *ir = IR(ref);
++  lj_assertA(irt_ispri(ir->t) || irt_isaddr(ir->t) || irt_isinteger(ir->t),
++	     "store of IR type %d", irt_type(ir->t));
++  if (irref_isk(ref)) {
++    TValue k;
++    lj_ir_kvalue(as->J->L, &k, ir);
++    emit_lso(as, RISCVI_SD, ra_allock(as, (int64_t)k.u64, allow), base, ofs);
++  } else {
++    Reg src = ra_alloc1(as, ref, allow);
++    rset_clear(allow, src);
++    Reg type = ra_allock(as, (int64_t)irt_toitype(ir->t) << 47, allow);
++    emit_lso(as, RISCVI_SD, RID_TMP, base, ofs);
++    if (irt_isinteger(ir->t)) {
++      emit_ds1s2(as, RISCVI_ADD, RID_TMP, RID_TMP, type);
++      emit_ext(as, RISCVI_ZEXT_W, RID_TMP, src);
++    } else {
++      emit_ds1s2(as, RISCVI_ADD, RID_TMP, src, type);
++    }
++  }
++}
++
++/* Get pointer to TValue. */
++static void asm_tvptr(ASMState *as, Reg dest, IRRef ref, MSize mode)	// todo-new
++{
++  if ((mode & IRTMPREF_IN1)) {
++    IRIns *ir = IR(ref);
++    if (irt_isnum(ir->t)) {
++      if (irref_isk(ref) && !(mode & IRTMPREF_OUT1)) {
++  /* Use the number constant itself as a TValue. */
++  ra_allockreg(as, igcptr(ir_knum(ir)), dest);
++  return;
++      }
++      emit_lso(as, RISCVI_FSD, ra_alloc1(as, ref, RSET_FPR), dest, 0);
++    } else {
++      asm_tvstore64(as, dest, 0, ref);
++    }
++  }
++  /* g->tmptv holds the TValue(s). */
++  emit_opk(as, RISCVI_ADDI, dest, RID_GL, offsetof(global_State, tmptv));
++}
++
++static void asm_aref(ASMState *as, IRIns *ir)
++{
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  Reg idx, base;
++  if (irref_isk(ir->op2)) {
++    IRRef tab = IR(ir->op1)->op1;
++    int32_t ofs = asm_fuseabase(as, tab);
++    IRRef refa = ofs ? tab : ir->op1;
++    ofs += 8*IR(ir->op2)->i;
++    if (checki12(ofs)) {
++      base = ra_alloc1(as, refa, RSET_GPR);
++      emit_dsi(as, RISCVI_ADDI, dest, base, ofs);
++      return;
++    }
++  }
++  base = ra_alloc1(as, ir->op1, RSET_GPR);
++  idx = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, base));
++  emit_sh3add(as, dest, base, idx);
++}
++
++/* Inlined hash lookup. Specialized for key type and for const keys.
++** The equivalent C code is:
++**   Node *n = hashkey(t, key);
++**   do {
++**     if (lj_obj_equal(&n->key, key)) return &n->val;
++**   } while ((n = nextnode(n)));
++**   return niltv(L);
++*/
++static void asm_href(ASMState *as, IRIns *ir, IROp merge)
++{
++  RegSet allow = RSET_GPR;
++  int destused = ra_used(ir);
++  Reg dest = ra_dest(as, ir, allow);
++  Reg tab = ra_alloc1(as, ir->op1, rset_clear(allow, dest));
++  Reg key = RID_NONE, type = RID_NONE, tmpnum = RID_NONE, tmp1, tmp2;
++  Reg cmp64 = RID_NONE;
++  IRRef refkey = ir->op2;
++  IRIns *irkey = IR(refkey);
++  int isk = irref_isk(refkey);
++  IRType1 kt = irkey->t;
++  uint32_t khash;
++  MCLabel l_end, l_loop, l_next;
++  rset_clear(allow, tab);
++  tmp1 = ra_scratch(as, allow);
++  rset_clear(allow, tmp1);
++  tmp2 = ra_scratch(as, allow);
++  rset_clear(allow, tmp2);
++
++  if (irt_isnum(kt)) {
++    key = ra_alloc1(as, refkey, RSET_FPR);
++    tmpnum = ra_scratch(as, rset_exclude(RSET_FPR, key));
++  } else {
++    /* Allocate cmp64 register used for 64-bit comparisons */
++    if (!isk && irt_isaddr(kt)) {
++      cmp64 = tmp2;
++    } else {
++      int64_t k;
++      if (isk && irt_isaddr(kt)) {
++	k = ((int64_t)irt_toitype(kt) << 47) | irkey[1].tv.u64;
++      } else {
++	lj_assertA(irt_ispri(kt) && !irt_isnil(kt), "bad HREF key type");
++	k = ~((int64_t)~irt_toitype(kt) << 47);
++      }
++      cmp64 = ra_allock(as, k, allow);
++      rset_clear(allow, cmp64);
++    }
++    if (!irt_ispri(kt)) {
++      key = ra_alloc1(as, refkey, allow);
++      rset_clear(allow, key);
++    }
++  } 
++
++  /* Key not found in chain: jump to exit (if merged) or load niltv. */
++  l_end = emit_label(as);
++  int is_lend_exit = 0;
++  as->invmcp = NULL;
++  if (merge == IR_NE)
++    asm_guard(as, RISCVI_BEQ, RID_ZERO, RID_ZERO);
++  else if (destused)
++    emit_loada(as, dest, niltvg(J2G(as->J)));
++
++  /* Follow hash chain until the end. */
++  l_loop = --as->mcp;
++  emit_mv(as, dest, tmp1);
++  emit_lso(as, RISCVI_LD, tmp1, dest, (int32_t)offsetof(Node, next));
++  l_next = emit_label(as);
++
++  /* Type and value comparison. */
++  if (merge == IR_EQ) {  /* Must match asm_guard(). */
++    l_end = asm_exitstub_addr(as, as->snapno);
++    is_lend_exit = 1;
++  }
++  if (irt_isnum(kt)) {
++    emit_branch(as, RISCVI_BNE, tmp1, RID_ZERO, l_end, is_lend_exit);
++    emit_ds1s2(as, RISCVI_FEQ_D, tmp1, tmpnum, key);
++    emit_branch(as, RISCVI_BEQ, tmp1, RID_ZERO, l_next, 0);
++    emit_dsi(as, RISCVI_SLTIU, tmp1, tmp1, ((int32_t)LJ_TISNUM));
++    emit_dsshamt(as, RISCVI_SRAI, tmp1, tmp1, 47);
++    emit_ds(as, RISCVI_FMV_D_X, tmpnum, tmp1);
++  } else {
++    emit_branch(as, RISCVI_BEQ, tmp1, cmp64, l_end, is_lend_exit);
++  }
++  emit_lso(as, RISCVI_LD, tmp1, dest, (int32_t)offsetof(Node, key.u64));
++  *l_loop = RISCVI_BNE | RISCVF_S1(tmp1) | RISCVF_S2(RID_ZERO)
++          | RISCVF_IMMB((char *)as->mcp-(char *)l_loop);
++  if (!isk && irt_isaddr(kt)) {
++    type = ra_allock(as, (int64_t)irt_toitype(kt) << 47, allow);
++    emit_ds1s2(as, RISCVI_ADD, tmp2, key, type);
++    rset_clear(allow, type);
++  }
++
++  /* Load main position relative to tab->node into dest. */
++  khash = isk ? ir_khash(as, irkey) : 1;
++  if (khash == 0) {
++    emit_lso(as, RISCVI_LD, dest, tab, (int32_t)offsetof(GCtab, node));
++  } else {
++    Reg tmphash = tmp1;
++    if (isk)
++      tmphash = ra_allock(as, khash, allow);
++    /* node = tab->node + (idx*32-idx*8) */
++    emit_ds1s2(as, RISCVI_ADD, dest, dest, tmp1);
++    lj_assertA(sizeof(Node) == 24, "bad Node size");
++    emit_ds1s2(as, RISCVI_SUBW, tmp1, tmp2, tmp1);
++    emit_dsshamt(as, RISCVI_SLLIW, tmp1, tmp1, 3);
++    emit_dsshamt(as, RISCVI_SLLIW, tmp2, tmp1, 5);
++    emit_ds1s2(as, RISCVI_AND, tmp1, tmp2, tmphash);	// idx = hi & tab->hmask
++    emit_lso(as, RISCVI_LD, dest, tab, (int32_t)offsetof(GCtab, node));
++    emit_lso(as, RISCVI_LW, tmp2, tab, (int32_t)offsetof(GCtab, hmask));
++    if (isk) {
++      /* Nothing to do. */
++    } else if (irt_isstr(kt)) {
++      emit_lso(as, RISCVI_LW, tmp1, key, (int32_t)offsetof(GCstr, sid));
++    } else {  /* Must match with hash*() in lj_tab.c. */
++      emit_ds1s2(as, RISCVI_SUBW, tmp1, tmp1, tmp2);
++      emit_roti(as, RISCVI_RORIW, tmp2, tmp2, (-HASH_ROT3)&0x1f);
++      emit_ds1s2(as, RISCVI_XOR, tmp1, tmp1, tmp2);
++      emit_roti(as, RISCVI_RORIW, tmp1, tmp1, (-HASH_ROT2-HASH_ROT1)&0x1f);
++      emit_ds1s2(as, RISCVI_SUBW, tmp2, tmp2, dest);
++      emit_ds1s2(as, RISCVI_XOR, tmp2, tmp2, tmp1);
++      emit_roti(as, RISCVI_RORIW, dest, tmp1, (-HASH_ROT1)&0x1f);
++      if (irt_isnum(kt)) {
++	emit_dsshamt(as, RISCVI_SLLIW, tmp1, tmp1, 1);
++	emit_dsshamt(as, RISCVI_SRAI, tmp1, tmp1, 32);	// hi
++	emit_ext(as, RISCVI_SEXT_W, tmp2, tmp1);	// lo
++	emit_ds(as, RISCVI_FMV_X_D, tmp1, key);
++      } else {
++	checkmclim(as);
++	emit_dsshamt(as, RISCVI_SRAI, tmp1, tmp1, 32);	// hi
++	emit_ext(as, RISCVI_SEXT_W, tmp2, key);	// lo
++	emit_ds1s2(as, RISCVI_ADD, tmp1, key, type);
++      }
++    }
++  }
++}
++
++static void asm_hrefk(ASMState *as, IRIns *ir)
++{
++  IRIns *kslot = IR(ir->op2);
++  IRIns *irkey = IR(kslot->op1);
++  int32_t ofs = (int32_t)(kslot->op2 * sizeof(Node));
++  int32_t kofs = ofs + (int32_t)offsetof(Node, key);
++  int bigofs = !checki12(kofs);
++  Reg dest = (ra_used(ir) || bigofs) ? ra_dest(as, ir, RSET_GPR) : RID_NONE;
++  Reg node = ra_alloc1(as, ir->op1, RSET_GPR);
++  RegSet allow = rset_exclude(RSET_GPR, node);
++  Reg idx = node;
++  Reg key = ra_scratch(as, allow);
++  int64_t k;
++  lj_assertA(ofs % sizeof(Node) == 0, "unaligned HREFK slot");
++  if (bigofs) {
++    idx = dest;
++    rset_clear(allow, dest);
++    kofs = (int32_t)offsetof(Node, key);
++  } else if (ra_hasreg(dest)) {
++    emit_dsi(as, RISCVI_ADDI, dest, node, ofs);
++  }
++  if (irt_ispri(irkey->t)) {
++    lj_assertA(!irt_isnil(irkey->t), "bad HREFK key type");
++    k = ~((int64_t)~irt_toitype(irkey->t) << 47);
++  } else if (irt_isnum(irkey->t)) {
++    k = (int64_t)ir_knum(irkey)->u64;
++  } else {
++    k = ((int64_t)irt_toitype(irkey->t) << 47) | (int64_t)ir_kgc(irkey);
++  }
++  key = ra_scratch(as, allow);
++  asm_guard(as, RISCVI_BNE, key, ra_allock(as, k, allow));
++  emit_lso(as, RISCVI_LD, key, idx, kofs);
++  if (bigofs)
++    emit_ds1s2(as, RISCVI_ADD, dest, node, ra_allock(as, ofs, allow));
++}
++
++static void asm_uref(ASMState *as, IRIns *ir)
++{
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  if (irref_isk(ir->op1)) {
++    GCfunc *fn = ir_kfunc(IR(ir->op1));
++    MRef *v = &gcref(fn->l.uvptr[(ir->op2 >> 8)])->uv.v;
++    emit_lsptr(as, RISCVI_LD, dest, v, RSET_GPR);
++  } else {
++    Reg uv = ra_scratch(as, RSET_GPR);
++    Reg func = ra_alloc1(as, ir->op1, RSET_GPR);
++    if (ir->o == IR_UREFC) {
++      asm_guard(as, RISCVI_BEQ, RID_TMP, RID_ZERO);
++      emit_dsi(as, RISCVI_ADDI, dest, uv, (int32_t)offsetof(GCupval, tv));
++      emit_lso(as, RISCVI_LBU, RID_TMP, uv, (int32_t)offsetof(GCupval, closed));
++    } else {
++      emit_lso(as, RISCVI_LD, dest, uv, (int32_t)offsetof(GCupval, v));
++    }
++    emit_lso(as, RISCVI_LD, uv, func, (int32_t)offsetof(GCfuncL, uvptr) +
++      (int32_t)sizeof(MRef) * (int32_t)(ir->op2 >> 8));
++  }
++}
++
++static void asm_fref(ASMState *as, IRIns *ir)
++{
++  UNUSED(as); UNUSED(ir);
++  lj_assertA(!ra_used(ir), "unfused FREF");
++}
++
++static void asm_strref(ASMState *as, IRIns *ir)
++{
++  RegSet allow = RSET_GPR;
++  Reg dest = ra_dest(as, ir, allow);
++  Reg base = ra_alloc1(as, ir->op1, allow);
++  IRIns *irr = IR(ir->op2);
++  int32_t ofs = sizeof(GCstr);
++  rset_clear(allow, base);
++  if (irref_isk(ir->op2) && checki12(ofs + irr->i)) {
++    emit_dsi(as, RISCVI_ADDI, dest, base, ofs + irr->i);
++  } else {
++    emit_dsi(as, RISCVI_ADDI, dest, dest, ofs);
++    emit_ds1s2(as, RISCVI_ADD, dest, base, ra_alloc1(as, ir->op2, allow));
++  }
++}
++
++/* -- Loads and stores ---------------------------------------------------- */
++
++static RISCVIns asm_fxloadins(IRIns *ir)
++{
++  switch (irt_type(ir->t)) {
++  case IRT_I8: return RISCVI_LB;
++  case IRT_U8: return RISCVI_LBU;
++  case IRT_I16: return RISCVI_LH;
++  case IRT_U16: return RISCVI_LHU;
++  case IRT_NUM: return RISCVI_FLD;
++  case IRT_FLOAT: return RISCVI_FLW;
++  default: return irt_is64(ir->t) ? RISCVI_LD : RISCVI_LW;
++  }
++}
++
++static RISCVIns asm_fxstoreins(IRIns *ir)
++{
++  switch (irt_type(ir->t)) {
++  case IRT_I8: case IRT_U8: return RISCVI_SB;
++  case IRT_I16: case IRT_U16: return RISCVI_SH;
++  case IRT_NUM: return RISCVI_FSD;
++  case IRT_FLOAT: return RISCVI_FSW;
++  default: return irt_is64(ir->t) ? RISCVI_SD : RISCVI_SW;
++  }
++}
++
++static void asm_fload(ASMState *as, IRIns *ir)
++{
++  RegSet allow = RSET_GPR;
++  Reg idx, dest = ra_dest(as, ir, allow);
++  rset_clear(allow, dest);
++  RISCVIns riscvi = asm_fxloadins(ir);
++  int32_t ofs;
++  if (ir->op1 == REF_NIL) {  /* FLOAD from GG_State with offset. */
++    idx = RID_GL;
++    ofs = (ir->op2 << 2) - GG_OFS(g);
++  } else {
++    idx = ra_alloc1(as, ir->op1, allow);
++    if (ir->op2 == IRFL_TAB_ARRAY) {
++      ofs = asm_fuseabase(as, ir->op1);
++      if (ofs) {  /* Turn the t->array load into an add for colocated arrays. */
++	emit_dsi(as, RISCVI_ADDI, dest, idx, ofs);
++	return;
++      }
++    }
++    ofs = field_ofs[ir->op2];
++  }
++  rset_clear(allow, idx);
++  lj_assertA(!irt_isfp(ir->t), "bad FP FLOAD");
++  emit_lso(as, riscvi, dest, idx, ofs);
++}
++
++static void asm_fstore(ASMState *as, IRIns *ir)
++{
++  if (ir->r != RID_SINK) {
++    Reg src = ra_alloc1z(as, ir->op2, RSET_GPR);
++    IRIns *irf = IR(ir->op1);
++    Reg idx = ra_alloc1(as, irf->op1, rset_exclude(RSET_GPR, src));
++    int32_t ofs = field_ofs[irf->op2];
++    lj_assertA(!irt_isfp(ir->t), "bad FP FSTORE");
++    emit_lso(as, asm_fxstoreins(ir), src, idx, ofs);
++  }
++}
++
++static void asm_xload(ASMState *as, IRIns *ir)
++{
++  Reg dest = ra_dest(as, ir, (irt_isfp(ir->t)) ? RSET_FPR : RSET_GPR);
++  lj_assertA(LJ_TARGET_UNALIGNED || !(ir->op2 & IRXLOAD_UNALIGNED),
++	     "unaligned XLOAD");
++  asm_fusexref(as, asm_fxloadins(ir), dest, ir->op1, RSET_GPR, 0);
++}
++
++static void asm_xstore_(ASMState *as, IRIns *ir, int32_t ofs)
++{
++  if (ir->r != RID_SINK) {
++    Reg src = ra_alloc1z(as, ir->op2, irt_isfp(ir->t) ? RSET_FPR : RSET_GPR);
++    asm_fusexref(as, asm_fxstoreins(ir), src, ir->op1,
++	  	 rset_exclude(RSET_GPR, src), ofs);
++  }
++}
++
++#define asm_xstore(as, ir)	asm_xstore_(as, ir, 0)
++
++static void asm_ahuvload(ASMState *as, IRIns *ir)
++{
++  Reg dest = RID_NONE, type = RID_TMP, idx;
++  RegSet allow = RSET_GPR;
++  int32_t ofs = 0;
++  IRType1 t = ir->t;
++  if (ra_used(ir)) {
++    lj_assertA((irt_isnum(ir->t)) || irt_isint(ir->t) || irt_isaddr(ir->t),
++	       "bad load type %d", irt_type(ir->t));
++    dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : allow);
++    rset_clear(allow, dest);
++    if (irt_isaddr(t)) {
++      emit_cleartp(as, dest, dest);
++    } else if (irt_isint(t))
++      emit_ext(as, RISCVI_SEXT_W, dest, dest);
++  }
++  idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
++  if (ir->o == IR_VLOAD) ofs += 8 * ir->op2;
++  rset_clear(allow, idx);
++  if (irt_isnum(t)) {
++    asm_guard(as, RISCVI_BEQ, RID_TMP, RID_ZERO);
++    emit_dsi(as, RISCVI_SLTIU, RID_TMP, type, (int32_t)LJ_TISNUM);
++  } else {
++    asm_guard(as, RISCVI_BNE, type,
++	      ra_allock(as, (int32_t)irt_toitype(t), allow));
++  }
++  if (ra_hasreg(dest)) {
++    if (irt_isnum(t)) {
++      emit_lso(as, RISCVI_FLD, dest, idx, ofs);
++      dest = type;
++    }
++  } else {
++    dest = type;
++  }
++  emit_dsshamt(as, RISCVI_SRAI, type, dest, 47);
++  emit_lso(as, RISCVI_LD, dest, idx, ofs);
++}
++
++static void asm_ahustore(ASMState *as, IRIns *ir)
++{
++  RegSet allow = RSET_GPR;
++  Reg idx, src = RID_NONE, type = RID_NONE;
++  int32_t ofs = 0;
++  if (ir->r == RID_SINK)
++    return;
++  if (irt_isnum(ir->t)) {
++    src = ra_alloc1(as, ir->op2, RSET_FPR);
++    idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
++    emit_lso(as, RISCVI_FSD, src, idx, ofs);
++  } else {
++    Reg tmp = RID_TMP;
++    if (irt_ispri(ir->t)) {
++      tmp = ra_allock(as, ~((int64_t)~irt_toitype(ir->t) << 47), allow);
++      rset_clear(allow, tmp);
++    } else {
++      src = ra_alloc1(as, ir->op2, allow);
++      rset_clear(allow, src);
++      type = ra_allock(as, (int64_t)irt_toitype(ir->t) << 47, allow);
++      rset_clear(allow, type);
++    }
++    idx = asm_fuseahuref(as, ir->op1, &ofs, allow);
++    emit_lso(as, RISCVI_SD, tmp, idx, ofs);
++    if (ra_hasreg(src)) {
++      if (irt_isinteger(ir->t)) {
++	emit_ds1s2(as, RISCVI_ADD, tmp, tmp, type);
++  emit_ext(as, RISCVI_ZEXT_W, tmp, src);
++      } else {
++	emit_ds1s2(as, RISCVI_ADD, tmp, src, type);
++      }
++    }
++  }
++}
++
++static void asm_sload(ASMState *as, IRIns *ir)
++{
++  Reg dest = RID_NONE, type = RID_NONE, base;
++  RegSet allow = RSET_GPR;
++  IRType1 t = ir->t;
++  int32_t ofs = 8*((int32_t)ir->op1-2);
++  lj_assertA(checki12(ofs), "sload IR operand out of range");
++  lj_assertA(!(ir->op2 & IRSLOAD_PARENT),
++	     "bad parent SLOAD");  /* Handled by asm_head_side(). */
++  lj_assertA(irt_isguard(t) || !(ir->op2 & IRSLOAD_TYPECHECK),
++	     "inconsistent SLOAD variant");
++  if ((ir->op2 & IRSLOAD_CONVERT) && irt_isguard(t) && irt_isint(t)) {
++    dest = ra_scratch(as, RSET_FPR);
++    asm_tointg(as, ir, dest);
++    t.irt = IRT_NUM;  /* Continue with a regular number type check. */
++  } else if (ra_used(ir)) {
++    Reg tmp = RID_NONE;
++    if ((ir->op2 & IRSLOAD_CONVERT))
++      tmp = ra_scratch(as, irt_isint(t) ? RSET_FPR : RSET_GPR);
++    lj_assertA((irt_isnum(t)) || irt_isint(t) || irt_isaddr(t),
++	       "bad SLOAD type %d", irt_type(t));
++    dest = ra_dest(as, ir, irt_isnum(t) ? RSET_FPR : allow);
++    rset_clear(allow, dest);
++    base = ra_alloc1(as, REF_BASE, allow);
++    rset_clear(allow, base);
++    if (irt_isaddr(t)) { /* Clear type from pointers. */
++      emit_cleartp(as, dest, dest);
++    } else if (ir->op2 & IRSLOAD_CONVERT) {
++      if (irt_isint(t)) {
++	emit_ds(as, RISCVI_FCVT_W_D|RISCVF_RM(RISCVRM_RTZ), dest, tmp);
++  /* If value is already loaded for type check, move it to FPR. */
++	if ((ir->op2 & IRSLOAD_TYPECHECK))
++	  emit_ds(as, RISCVI_FMV_D_X, tmp, dest);
++	else
++	  dest = tmp;
++	t.irt = IRT_NUM;  /* Check for original type. */
++      } else {
++	emit_ds(as, RISCVI_FCVT_D_W, dest, tmp);
++	dest = tmp;
++	t.irt = IRT_INT;  /* Check for original type. */
++      }
++    } else if (irt_isint(t) && (ir->op2 & IRSLOAD_TYPECHECK)) {
++      /* Sign-extend integers. */
++      emit_ext(as, RISCVI_SEXT_W, dest, dest);
++    }
++    goto dotypecheck;
++  }
++  base = ra_alloc1(as, REF_BASE, allow);
++  rset_clear(allow, base);
++dotypecheck:
++  if ((ir->op2 & IRSLOAD_TYPECHECK)) {
++    type = dest < RID_MAX_GPR ? dest : RID_TMP;
++    if (irt_ispri(t)) {
++      asm_guard(as, RISCVI_BNE, type,
++		ra_allock(as, ~((int64_t)~irt_toitype(t) << 47) , allow));
++    } else if ((ir->op2 & IRSLOAD_KEYINDEX)) {
++      asm_guard(as, RISCVI_BNE, RID_TMP,
++               ra_allock(as, (int32_t)LJ_KEYINDEX, allow));
++      emit_dsshamt(as, RISCVI_SRAI, RID_TMP, type, 32);
++    } else {
++      if (irt_isnum(t)) {
++        asm_guard(as, RISCVI_BEQ, RID_TMP, RID_ZERO);
++        emit_dsi(as, RISCVI_SLTIU, RID_TMP, RID_TMP, LJ_TISNUM);
++	if (ra_hasreg(dest)) {
++	  emit_lso(as, RISCVI_FLD, dest, base, ofs);
++	}
++      } else {
++	asm_guard(as, RISCVI_BNE, RID_TMP,
++		  ra_allock(as, (int32_t)irt_toitype(t), allow));
++      }
++      emit_dsshamt(as, RISCVI_SRAI, RID_TMP, type, 47);
++    }
++    emit_lso(as, RISCVI_LD, type, base, ofs);
++  } else if (ra_hasreg(dest)) {
++    emit_lso(as, irt_isnum(t) ? RISCVI_FLD :
++             irt_isint(t) ? RISCVI_LW : RISCVI_LD,
++             dest, base, ofs);
++  }
++}
++
++/* -- Allocations --------------------------------------------------------- */
++
++#if LJ_HASFFI
++static void asm_cnew(ASMState *as, IRIns *ir)
++{
++  CTState *cts = ctype_ctsG(J2G(as->J));
++  CTypeID id = (CTypeID)IR(ir->op1)->i;
++  CTSize sz;
++  CTInfo info = lj_ctype_info(cts, id, &sz);
++  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_mem_newgco];
++  IRRef args[4];
++  RegSet drop = RSET_SCRATCH;
++  lj_assertA(sz != CTSIZE_INVALID || (ir->o == IR_CNEW && ir->op2 != REF_NIL),
++	     "bad CNEW/CNEWI operands");
++
++  as->gcsteps++;
++  if (ra_hasreg(ir->r))
++    rset_clear(drop, ir->r);  /* Dest reg handled below. */
++  ra_evictset(as, drop);
++  if (ra_used(ir))
++    ra_destreg(as, ir, RID_RET);  /* GCcdata * */
++
++  /* Initialize immutable cdata object. */
++  if (ir->o == IR_CNEWI) {
++    RegSet allow = (RSET_GPR & ~RSET_SCRATCH);
++    emit_lso(as, sz == 8 ? RISCVI_SD : RISCVI_SW, ra_alloc1(as, ir->op2, allow),
++	     RID_RET, (sizeof(GCcdata)));
++    lj_assertA(sz == 4 || sz == 8, "bad CNEWI size %d", sz);
++  } else if (ir->op2 != REF_NIL) {  /* Create VLA/VLS/aligned cdata. */
++    ci = &lj_ir_callinfo[IRCALL_lj_cdata_newv];
++    args[0] = ASMREF_L;     /* lua_State *L */
++    args[1] = ir->op1;      /* CTypeID id   */
++    args[2] = ir->op2;      /* CTSize sz    */
++    args[3] = ASMREF_TMP1;  /* CTSize align */
++    asm_gencall(as, ci, args);
++    emit_loadi(as, ra_releasetmp(as, ASMREF_TMP1), (int32_t)ctype_align(info));
++    return;
++  }
++
++  /* Initialize gct and ctypeid. lj_mem_newgco() already sets marked. */
++  emit_lso(as, RISCVI_SB, RID_RET+1, RID_RET, (offsetof(GCcdata, gct)));
++  emit_lso(as, RISCVI_SH, RID_TMP, RID_RET, (offsetof(GCcdata, ctypeid)));
++  emit_loadk12(as, RID_RET+1, ~LJ_TCDATA);
++  emit_loadk32(as, RID_TMP, id);
++  args[0] = ASMREF_L;     /* lua_State *L */
++  args[1] = ASMREF_TMP1;  /* MSize size   */
++  asm_gencall(as, ci, args);
++  ra_allockreg(as, (int32_t)(sz+sizeof(GCcdata)),
++         ra_releasetmp(as, ASMREF_TMP1));
++}
++#endif
++
++/* -- Write barriers ------------------------------------------------------ */
++
++static void asm_tbar(ASMState *as, IRIns *ir)
++{
++  Reg tab = ra_alloc1(as, ir->op1, RSET_GPR);
++  Reg mark = ra_scratch(as, rset_exclude(RSET_GPR, tab));
++  Reg link = RID_TMP;
++  MCLabel l_end = emit_label(as);
++  emit_lso(as, RISCVI_SD, link, tab, (int32_t)offsetof(GCtab, gclist));
++  emit_lso(as, RISCVI_SB, mark, tab, (int32_t)offsetof(GCtab, marked));
++  emit_setgl(as, tab, gc.grayagain);	// make tab gray again
++  emit_getgl(as, link, gc.grayagain);
++  emit_branch(as, RISCVI_BEQ, RID_TMP, RID_ZERO, l_end, 0);	// black: not jump
++  emit_ds1s2(as, RISCVI_XOR, mark, mark, RID_TMP);	// mark=0: gray
++  emit_dsi(as, RISCVI_ANDI, RID_TMP, mark, LJ_GC_BLACK);
++  emit_lso(as, RISCVI_LBU, mark, tab, ((int32_t)offsetof(GCtab, marked)));
++}
++
++static void asm_obar(ASMState *as, IRIns *ir)
++{
++  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_barrieruv];
++  IRRef args[2];
++  MCLabel l_end;
++  Reg obj, val, tmp;
++  /* No need for other object barriers (yet). */
++  lj_assertA(IR(ir->op1)->o == IR_UREFC, "bad OBAR type");	// Closed upvalue
++  ra_evictset(as, RSET_SCRATCH);
++  l_end = emit_label(as);
++  args[0] = ASMREF_TMP1;  /* global_State *g */
++  args[1] = ir->op1;      /* TValue *tv      */
++  asm_gencall(as, ci, args);
++  emit_ds(as, RISCVI_MV, ra_releasetmp(as, ASMREF_TMP1), RID_GL);
++  obj = IR(ir->op1)->r;
++  tmp = ra_scratch(as, rset_exclude(RSET_GPR, obj));
++  emit_branch(as, RISCVI_BEQ, tmp, RID_ZERO, l_end, 0);
++  emit_branch(as, RISCVI_BEQ, RID_TMP, RID_ZERO, l_end, 0);	// black: jump
++  emit_dsi(as, RISCVI_ANDI, tmp, tmp, LJ_GC_BLACK);
++  emit_dsi(as, RISCVI_ANDI, RID_TMP, RID_TMP, LJ_GC_WHITES);
++  val = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, obj));
++  emit_lso(as, RISCVI_LBU, tmp, obj,
++	   ((int32_t)offsetof(GCupval, marked)-(int32_t)offsetof(GCupval, tv)));
++  emit_lso(as, RISCVI_LBU, RID_TMP, val, ((int32_t)offsetof(GChead, marked)));
++}
++
++/* -- Arithmetic and logic operations ------------------------------------- */
++
++static void asm_fparith(ASMState *as, IRIns *ir, RISCVIns riscvi)
++{
++  Reg dest = ra_dest(as, ir, RSET_FPR);
++  Reg right, left = ra_alloc2(as, ir, RSET_FPR);
++  right = (left >> 8); left &= 255;
++  emit_ds1s2(as, riscvi, dest, left, right);
++}
++
++static void asm_fpunary(ASMState *as, IRIns *ir, RISCVIns riscvi)
++{
++  Reg dest = ra_dest(as, ir, RSET_FPR);
++  Reg left = ra_hintalloc(as, ir->op1, dest, RSET_FPR);
++  switch(riscvi) {
++    case RISCVI_FSQRT_S: case RISCVI_FSQRT_D:
++      emit_ds(as, riscvi, dest, left);
++      break;
++    case RISCVI_FMV_S: case RISCVI_FMV_D:
++    case RISCVI_FABS_S: case RISCVI_FABS_D:
++    case RISCVI_FNEG_S: case RISCVI_FNEG_D:
++      emit_ds1s2(as, riscvi, dest, left, left);
++      break;
++    default:
++      lj_assertA(0, "bad fp unary instruction");
++      return;
++  }
++}
++
++static void asm_fpmath(ASMState *as, IRIns *ir)
++{
++  IRFPMathOp fpm = (IRFPMathOp)ir->op2;
++  if (fpm <= IRFPM_TRUNC)
++    asm_callround(as, ir, IRCALL_lj_vm_floor + fpm);
++  else if (fpm == IRFPM_SQRT)
++    asm_fpunary(as, ir, RISCVI_FSQRT_D);
++  else
++    asm_callid(as, ir, IRCALL_lj_vm_floor + fpm);
++}
++
++static void asm_add(ASMState *as, IRIns *ir)
++{
++  IRType1 t = ir->t;
++  if (irt_isnum(t)) {
++    if (!asm_fusemadd(as, ir, RISCVI_FMADD_D, RISCVI_FMADD_D))
++      asm_fparith(as, ir, RISCVI_FADD_D);
++    return;
++  } else {
++    if ((as->flags & JIT_F_RVXThead) && asm_fusemac(as, ir, RISCVI_TH_MULA))
++      return;
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
++    if (irref_isk(ir->op2)) {
++      intptr_t k = get_kval(as, ir->op2);
++      if (checki12(k)) {
++  if (irt_is64(t)) {
++    emit_dsi(as, RISCVI_ADDI, dest, left, k);
++  } else {
++	  emit_dsi(as, RISCVI_ADDIW, dest, left, k);
++  }
++	return;
++      }
++    }
++    Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
++    emit_ds1s2(as, irt_is64(t) ? RISCVI_ADD : RISCVI_ADDW, dest,
++	     left, right);
++  }
++}
++
++static void asm_sub(ASMState *as, IRIns *ir)
++{
++  if (irt_isnum(ir->t)) {
++    if (!asm_fusemadd(as, ir, RISCVI_FMSUB_D, RISCVI_FNMSUB_D))
++      asm_fparith(as, ir, RISCVI_FSUB_D);
++    return;
++  } else {
++    if ((as->flags & JIT_F_RVXThead) && asm_fusemac(as, ir, RISCVI_TH_MULS))
++      return;
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
++    right = (left >> 8); left &= 255;
++    emit_ds1s2(as, irt_is64(ir->t) ? RISCVI_SUB : RISCVI_SUBW, dest,
++	     left, right);
++  }
++}
++
++static void asm_mul(ASMState *as, IRIns *ir)
++{
++  if (irt_isnum(ir->t)) {
++    asm_fparith(as, ir, RISCVI_FMUL_D);
++  } else {
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
++    right = (left >> 8); left &= 255;
++    emit_ds1s2(as, irt_is64(ir->t) ? RISCVI_MUL : RISCVI_MULW, dest,
++	     left, right);
++  }
++}
++
++static void asm_fpdiv(ASMState *as, IRIns *ir)
++{
++    asm_fparith(as, ir, RISCVI_FDIV_D);
++}
++
++static void asm_neg(ASMState *as, IRIns *ir)
++{
++  if (irt_isnum(ir->t)) {
++    asm_fpunary(as, ir, RISCVI_FNEG_D);
++  } else {
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
++    emit_ds1s2(as, irt_is64(ir->t) ? RISCVI_SUB : RISCVI_SUBW, dest,
++	     RID_ZERO, left);
++  }
++}
++
++#define asm_abs(as, ir)		asm_fpunary(as, ir, RISCVI_FABS_D)
++
++static void asm_arithov(ASMState *as, IRIns *ir)
++{
++  Reg right, left, tmp, dest = ra_dest(as, ir, RSET_GPR);
++  lj_assertA(!irt_is64(ir->t), "bad usage");
++  if (irref_isk(ir->op2)) {
++    int k = IR(ir->op2)->i;
++    if (ir->o == IR_SUBOV) k = (int)(~(unsigned int)k+1u);
++    if (checki12(k)) {	/* (dest < left) == (k >= 0 ? 1 : 0) */
++      left = ra_alloc1(as, ir->op1, RSET_GPR);
++      asm_guard(as, k >= 0 ? RISCVI_BNE : RISCVI_BEQ, RID_TMP, RID_ZERO);
++      emit_ds1s2(as, RISCVI_SLT, RID_TMP, dest, dest == left ? RID_TMP : left);
++      emit_dsi(as, RISCVI_ADDI, dest, left, k);
++      if (dest == left) emit_mv(as, RID_TMP, left);
++      return;
++    }
++  }
++  left = ra_alloc2(as, ir, RSET_GPR);
++  right = (left >> 8); left &= 255;
++  tmp = ra_scratch(as, rset_exclude(rset_exclude(rset_exclude(RSET_GPR, left),
++						 right), dest));
++  asm_guard(as, RISCVI_BLT, RID_TMP, RID_ZERO);
++  emit_ds1s2(as, RISCVI_AND, RID_TMP, RID_TMP, tmp);
++  if (ir->o == IR_ADDOV) {  /* ((dest^left) & (dest^right)) < 0 */
++    emit_ds1s2(as, RISCVI_XOR, RID_TMP, dest, dest == right ? RID_TMP : right);
++  } else {  /* ((dest^left) & (dest^~right)) < 0 */
++    emit_xnor(as, RID_TMP, dest, dest == right ? RID_TMP : right);
++  }
++  emit_ds1s2(as, RISCVI_XOR, tmp, dest, dest == left ? RID_TMP : left);
++  emit_ds1s2(as, ir->o == IR_ADDOV ? RISCVI_ADDW : RISCVI_SUBW, dest, left, right);
++  if (dest == left || dest == right)
++    emit_mv(as, RID_TMP, dest == left ? left : right);
++}
++
++#define asm_addov(as, ir)	asm_arithov(as, ir)
++#define asm_subov(as, ir)	asm_arithov(as, ir)
++
++static void asm_mulov(ASMState *as, IRIns *ir)
++{
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  Reg right, left = ra_alloc2(as, ir, RSET_GPR);
++  right = (left >> 8); left &= 255;
++  asm_guard(as, RISCVI_BNE, dest, RID_TMP);
++  emit_ext(as, RISCVI_SEXT_W, dest, RID_TMP);	// dest: [31:0]+signextend
++  emit_ds1s2(as, RISCVI_MUL, RID_TMP, left, right);	// RID_TMP: [63:0]
++}
++
++static void asm_bnot(ASMState *as, IRIns *ir)
++{
++  Reg left, right, dest = ra_dest(as, ir, RSET_GPR);
++  IRIns *irl = IR(ir->op1);
++  if (as->flags & JIT_F_RVZbb && mayfuse(as, ir->op1) && irl->o == IR_BXOR) {
++    left = ra_alloc2(as, irl, RSET_GPR);
++    right = (left >> 8); left &= 255;
++    emit_ds1s2(as, RISCVI_XNOR, dest, left, right);
++  } else {
++    left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
++    emit_ds(as, RISCVI_NOT, dest, left);
++  }
++}
++
++static void asm_bswap(ASMState *as, IRIns *ir)
++{
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
++  RegSet allow = rset_exclude(RSET_GPR, dest);
++  if (as->flags & JIT_F_RVZbb) {
++    if (!irt_is64(ir->t))
++      emit_dsshamt(as, RISCVI_SRAI, dest, dest, 32);
++    emit_ds(as, RISCVI_REV8, dest, left);
++  } else if (as->flags & JIT_F_RVXThead) {
++    emit_ds(as, irt_is64(ir->t) ? RISCVI_TH_REV : RISCVI_TH_REVW,
++       dest, left);
++  } else if (irt_is64(ir->t)) {
++    Reg tmp1, tmp2, tmp3, tmp4;
++    tmp1 = ra_scratch(as, allow), allow = rset_exclude(allow, tmp1);
++    tmp2 = ra_scratch(as, allow), allow = rset_exclude(allow, tmp2);
++    tmp3 = ra_scratch(as, allow), allow = rset_exclude(allow, tmp3);
++    tmp4 = ra_scratch(as, allow);
++    emit_ds1s2(as, RISCVI_OR, dest, dest, tmp4);
++    emit_ds1s2(as, RISCVI_OR, dest, dest, tmp3);
++    emit_ds1s2(as, RISCVI_OR, dest, dest, tmp2);
++    emit_dsshamt(as, RISCVI_SLLI, tmp4, tmp4, 40);
++    emit_dsshamt(as, RISCVI_SLLI, dest, left, 56);
++    emit_ds1s2(as, RISCVI_OR, tmp3, tmp1, tmp3);
++    emit_ds1s2(as, RISCVI_AND, tmp4, left, RID_TMP);
++    emit_dsshamt(as, RISCVI_SLLI, tmp3, tmp3, 32);
++    emit_dsshamt(as, RISCVI_SLLI, tmp1, tmp1, 24);
++    emit_dsshamt(as, RISCVI_SRLIW, tmp3, left, 24);
++    emit_ds1s2(as, RISCVI_OR, tmp2, tmp3, tmp2);
++    emit_ds1s2(as, RISCVI_AND, tmp1, left, tmp1);
++    emit_ds1s2(as, RISCVI_OR, tmp3, tmp4, tmp3);
++    emit_dsshamt(as, RISCVI_SLLI, tmp4, tmp4, 24);
++    emit_dsshamt(as, RISCVI_SRLIW, tmp4, tmp4, 24);
++    emit_ds1s2(as, RISCVI_AND, tmp3, tmp3, tmp1);
++    emit_dsshamt(as, RISCVI_SRLI, tmp4, left, 8);
++    emit_dsshamt(as, RISCVI_SRLI, tmp3, left, 24);
++    emit_ds1s2(as, RISCVI_OR, tmp2, tmp2, tmp3);
++    emit_du(as, RISCVI_LUI, tmp1, RISCVF_HI(0xff0000u));
++    emit_ds1s2(as, RISCVI_AND, tmp2, tmp2, RID_TMP);
++    emit_dsshamt(as, RISCVI_SRLI, tmp3, left, 56);
++    emit_dsi(as, RISCVI_ADDI, RID_TMP, RID_TMP, RISCVF_LO(0xff00));
++    emit_du(as, RISCVI_LUI, RID_TMP, RISCVF_HI(0xff00u));
++    emit_dsshamt(as, RISCVI_SRLI, tmp2, left, 40);
++  } else {
++    Reg tmp1, tmp2;
++    tmp1 = ra_scratch(as, allow), allow = rset_exclude(allow, tmp1);
++    tmp2 = ra_scratch(as, allow);
++    emit_ds1s2(as, RISCVI_OR, dest, dest, tmp2);
++    emit_ds1s2(as, RISCVI_OR, dest, dest, tmp1);
++    emit_dsshamt(as, RISCVI_SLLI, tmp2, RID_TMP, 8);
++    emit_dsshamt(as, RISCVI_SLLIW, dest, left, 24);
++    emit_ds1s2(as, RISCVI_OR, tmp1, tmp1, tmp2);
++    emit_ds1s2(as, RISCVI_AND, RID_TMP, left, RID_TMP);
++    emit_ds1s2(as, RISCVI_AND, tmp1, tmp1, RID_TMP);
++    emit_dsshamt(as, RISCVI_SRLIW, tmp2, left, 24);
++    emit_dsi(as, RISCVI_ADDI, RID_TMP, RID_TMP, RISCVF_LO(0xff00));
++    emit_du(as, RISCVI_LUI, RID_TMP, RISCVF_HI(0xff00u));
++    emit_dsshamt(as, RISCVI_SRLI, tmp1, left, 8);
++  }
++}
++
++static void asm_bitop(ASMState *as, IRIns *ir, RISCVIns riscvi, RISCVIns riscvik, RISCVIns riscvin)
++{
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  Reg left, right;
++  IRIns *irl = IR(ir->op1), *irr = IR(ir->op2);
++  if (irref_isk(ir->op2)) {
++    intptr_t k = get_kval(as, ir->op2);
++    if (checki12(k)) {
++      left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
++      emit_dsi(as, riscvik, dest, left, k);
++      return;
++    }
++  } else if (as->flags & JIT_F_RVZbb) {
++    if (mayfuse(as, ir->op1) && irl->o == IR_BNOT) {
++      left = ra_alloc1(as, irl->op1, RSET_GPR);
++      right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
++      emit_ds1s2(as, riscvin, dest, right, left);
++      return;
++    } else if (mayfuse(as, ir->op2) && irr->o == IR_BNOT) {
++      left = ra_alloc1(as, ir->op1, RSET_GPR);
++      right = ra_alloc1(as, irr->op1, rset_exclude(RSET_GPR, left));
++      emit_ds1s2(as, riscvin, dest, left, right);
++      return;
++    }
++  }
++  left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
++  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
++  emit_ds1s2(as, riscvi, dest, left, right);
++}
++
++#define asm_band(as, ir)	asm_bitop(as, ir, RISCVI_AND, RISCVI_ANDI, RISCVI_ANDN)
++#define asm_bor(as, ir)	asm_bitop(as, ir, RISCVI_OR, RISCVI_ORI, RISCVI_ORN)
++#define asm_bxor(as, ir)	asm_bitop(as, ir, RISCVI_XOR, RISCVI_XORI, RISCVI_XNOR)
++
++static void asm_bitshift(ASMState *as, IRIns *ir, RISCVIns riscvi, RISCVIns riscvik)
++{
++  Reg dest = ra_dest(as, ir, RSET_GPR);
++  Reg left = ra_alloc1(as, ir->op1, RSET_GPR);
++  uint32_t shmsk = irt_is64(ir->t) ? 63 : 31;
++  if (irref_isk(ir->op2)) {  /* Constant shifts. */
++    uint32_t shift = (uint32_t)(IR(ir->op2)->i & shmsk);
++    switch (riscvik) {
++      case RISCVI_SRAI: case RISCVI_SRLI: case RISCVI_SLLI:
++      case RISCVI_SRAIW: case RISCVI_SLLIW: case RISCVI_SRLIW:
++        emit_dsshamt(as, riscvik, dest, left, shift);
++        break;
++      case RISCVI_RORI: case RISCVI_RORIW:
++        emit_roti(as, riscvik, dest, left, shift);
++        break;
++      default:
++        lj_assertA(0, "bad shift instruction");
++        return;
++    }
++  } else {
++    Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
++    switch (riscvi) {
++      case RISCVI_SRA: case RISCVI_SRL: case RISCVI_SLL:
++      case RISCVI_SRAW: case RISCVI_SRLW: case RISCVI_SLLW:
++        emit_ds1s2(as, riscvi, dest, left, right);
++        break;
++      case RISCVI_ROR: case RISCVI_ROL:
++      case RISCVI_RORW: case RISCVI_ROLW:
++        emit_rot(as, riscvi, dest, left, right);
++        break;
++      default:
++        lj_assertA(0, "bad shift instruction");
++        return;
++    }
++  }
++}
++
++#define asm_bshl(as, ir)	(irt_is64(ir->t) ? \
++  asm_bitshift(as, ir, RISCVI_SLL, RISCVI_SLLI) : \
++  asm_bitshift(as, ir, RISCVI_SLLW, RISCVI_SLLIW))
++#define asm_bshr(as, ir)	(irt_is64(ir->t) ? \
++  asm_bitshift(as, ir, RISCVI_SRL, RISCVI_SRLI) : \
++  asm_bitshift(as, ir, RISCVI_SRLW, RISCVI_SRLIW))
++#define asm_bsar(as, ir)	(irt_is64(ir->t) ? \
++  asm_bitshift(as, ir, RISCVI_SRA, RISCVI_SRAI) : \
++  asm_bitshift(as, ir, RISCVI_SRAW, RISCVI_SRAIW))
++#define asm_brol(as, ir)	lj_assertA(0, "unexpected BROL")
++#define asm_bror(as, ir)	(irt_is64(ir->t) ? \
++  asm_bitshift(as, ir, RISCVI_ROR, RISCVI_RORI) : \
++  asm_bitshift(as, ir, RISCVI_RORW, RISCVI_RORIW))
++
++static void asm_min_max(ASMState *as, IRIns *ir, int ismax)
++{
++  if (irt_isnum(ir->t)) {
++    Reg dest = ra_dest(as, ir, RSET_FPR);
++    Reg right, left = ra_alloc2(as, ir, RSET_FPR);
++    right = (left >> 8); left &= 255;
++    emit_ds1s2(as, ismax ? RISCVI_FMAX_D : RISCVI_FMIN_D, dest, left, right);
++  } else {
++    Reg dest = ra_dest(as, ir, RSET_GPR);
++    Reg left = ra_hintalloc(as, ir->op1, dest, RSET_GPR);
++    Reg right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
++    if (as->flags & JIT_F_RVZbb) {
++      emit_ds1s2(as, ismax ? RISCVI_MAX : RISCVI_MIN, dest, left, right);
++    } else {
++      if (as->flags & JIT_F_RVXThead) {
++  if (left == right) {
++    if (dest != left) emit_mv(as, dest, left);
++  } else {
++    if (dest == left) {
++	    emit_ds1s2(as, RISCVI_TH_MVNEZ, dest, right, RID_TMP);
++    } else {
++	    emit_ds1s2(as, RISCVI_TH_MVEQZ, dest, left, RID_TMP);
++	    if (dest != right) emit_mv(as, dest, right);
++    }
++  }
++      } else {
++  emit_ds1s2(as, RISCVI_OR, dest, dest, RID_TMP);
++  if (dest != right) {
++    emit_andn(as, RID_TMP, right, RID_TMP, RID_TMP);
++    emit_ds1s2(as, RISCVI_AND, dest, left, RID_TMP);
++  } else {
++    emit_andn(as, RID_TMP, left, RID_TMP, RID_TMP);
++    emit_ds1s2(as, RISCVI_AND, dest, right, RID_TMP);
++  }
++  emit_dsi(as, RISCVI_ADDI, RID_TMP, RID_TMP, -1);
++      }
++      emit_ds1s2(as, RISCVI_SLT, RID_TMP,
++         ismax ? left : right, ismax ? right : left);
++    }
++  }
++}
++
++#define asm_min(as, ir)		asm_min_max(as, ir, 0)
++#define asm_max(as, ir)		asm_min_max(as, ir, 1)
++
++/* -- Comparisons --------------------------------------------------------- */
++
++/* FP comparisons. */
++static void asm_fpcomp(ASMState *as, IRIns *ir)
++{
++  IROp op = ir->o;
++  Reg right, left = ra_alloc2(as, ir, RSET_FPR);
++  right = (left >> 8); left &= 255;
++  asm_guard(as, (op < IR_EQ ? (op&4) : (op&1))
++            ? RISCVI_BNE : RISCVI_BEQ, RID_TMP, RID_ZERO);
++  switch (op) {
++    case IR_LT: case IR_UGE:
++      emit_ds1s2(as, RISCVI_FLT_D, RID_TMP, left, right);
++      break;
++    case IR_LE: case IR_UGT: case IR_ABC:
++      emit_ds1s2(as, RISCVI_FLE_D, RID_TMP, left, right);
++      break;
++    case IR_GT: case IR_ULE:
++      emit_ds1s2(as, RISCVI_FLT_D, RID_TMP, right, left);
++      break;
++    case IR_GE: case IR_ULT:
++      emit_ds1s2(as, RISCVI_FLE_D, RID_TMP, right, left);
++      break;
++    case IR_EQ: case IR_NE:
++      emit_ds1s2(as, RISCVI_FEQ_D, RID_TMP, left, right);
++      break;
++    default:
++      break;
++  }
++}
++
++/* Integer comparisons. */
++static void asm_intcomp(ASMState *as, IRIns *ir)
++{
++  /* ORDER IR: LT GE LE GT  ULT UGE ULE UGT. */
++  /*           00 01 10 11  100 101 110 111  */
++  IROp op = ir->o;
++  Reg right, left = ra_alloc1(as, ir->op1, RSET_GPR);
++  if (op == IR_ABC) op = IR_UGT;
++  if ((op&4) == 0 && irref_isk(ir->op2) && get_kval(as, ir->op2) == 0) {
++    switch (op) {
++      case IR_LT: asm_guard(as, RISCVI_BGE, left, RID_ZERO); break;
++      case IR_GE: asm_guard(as, RISCVI_BLT, left, RID_ZERO); break;
++      case IR_LE: asm_guard(as, RISCVI_BLT, RID_ZERO, left); break;
++      case IR_GT: asm_guard(as, RISCVI_BGE, RID_ZERO, left); break;
++      default: break;
++    }
++    return;
++  }
++  if (irref_isk(ir->op2)) {
++    intptr_t k = get_kval(as, ir->op2);
++    if ((op&2)) k++;
++    if (checki12(k)) {
++      asm_guard(as, (op&1) ? RISCVI_BNE : RISCVI_BEQ, RID_TMP, RID_ZERO);
++      emit_dsi(as, (op&4) ? RISCVI_SLTIU : RISCVI_SLTI, RID_TMP, left, k);
++      return;
++    }
++  }
++  right = ra_alloc1(as, ir->op2, rset_exclude(RSET_GPR, left));
++  asm_guard(as, ((op^(op>>1))&1) ? RISCVI_BNE : RISCVI_BEQ, RID_TMP, RID_ZERO);
++  emit_ds1s2(as, (op&4) ? RISCVI_SLTU : RISCVI_SLT,
++             RID_TMP, (op&2) ? right : left, (op&2) ? left : right);
++}
++
++static void asm_comp(ASMState *as, IRIns *ir)
++{
++  if (irt_isnum(ir->t))
++    asm_fpcomp(as, ir);
++  else
++    asm_intcomp(as, ir);
++}
++
++static void asm_equal(ASMState *as, IRIns *ir)
++{
++  if (irt_isnum(ir->t)) {
++    asm_fpcomp(as, ir);
++  } else {
++    Reg right, left = ra_alloc2(as, ir, RSET_GPR);
++    right = (left >> 8); left &= 255;
++    asm_guard(as, (ir->o & 1) ? RISCVI_BEQ : RISCVI_BNE, left, right);
++  }
++}
++
++/* -- Split register ops -------------------------------------------------- */
++
++/* Hiword op of a split 64 bit op. Previous op must be the loword op. */
++static void asm_hiop(ASMState *as, IRIns *ir)
++{
++  /* HIOP is marked as a store because it needs its own DCE logic. */
++  int uselo = ra_used(ir-1), usehi = ra_used(ir);  /* Loword/hiword used? */
++  if (LJ_UNLIKELY(!(as->flags & JIT_F_OPT_DCE))) uselo = usehi = 1;
++  if (!usehi) return;  /* Skip unused hiword op for all remaining ops. */
++  switch ((ir-1)->o) {
++  case IR_CALLN:
++  case IR_CALLL:
++  case IR_CALLS:
++  case IR_CALLXS:
++    if (!uselo)
++      ra_allocref(as, ir->op1, RID2RSET(RID_RETLO));  /* Mark lo op as used. */
++    break;
++  default: lj_assertA(0, "bad HIOP for op %d", (ir-1)->o); break;
++  }
++}
++
++/* -- Profiling ----------------------------------------------------------- */
++
++static void asm_prof(ASMState *as, IRIns *ir)
++{
++  UNUSED(ir);
++  asm_guard(as, RISCVI_BNE, RID_TMP, RID_ZERO);
++  emit_dsi(as, RISCVI_ANDI, RID_TMP, RID_TMP, HOOK_PROFILE);
++  emit_lsglptr(as, RISCVI_LBU, RID_TMP,
++         (int32_t)offsetof(global_State, hookmask));
++}
++
++/* -- Stack handling ------------------------------------------------------ */
++
++/* Check Lua stack size for overflow. Use exit handler as fallback. */
++static void asm_stack_check(ASMState *as, BCReg topslot,
++			    IRIns *irp, RegSet allow, ExitNo exitno)
++{
++  /* Try to get an unused temp register, otherwise spill/restore RID_RET*. */
++  Reg tmp, pbase = irp ? (ra_hasreg(irp->r) ? irp->r : RID_TMP) : RID_BASE;
++  ExitNo oldsnap = as->snapno;
++  rset_clear(allow, pbase);
++  as->snapno = exitno;
++  asm_guard(as, RISCVI_BNE, RID_TMP, RID_ZERO);
++  as->snapno = oldsnap;
++  if (allow) {
++    tmp = rset_pickbot(allow);
++    ra_modified(as, tmp);
++  } else {	// allow == RSET_EMPTY
++    tmp = RID_RET;
++    emit_lso(as, RISCVI_LD, tmp, RID_SP, 0);	/* Restore tmp1 register. */
++  }
++  emit_dsi(as, RISCVI_SLTIU, RID_TMP, RID_TMP, (int32_t)(8*topslot));
++  emit_ds1s2(as, RISCVI_SUB, RID_TMP, tmp, pbase);
++  emit_lso(as, RISCVI_LD, tmp, tmp, offsetof(lua_State, maxstack));
++  if (pbase == RID_TMP)
++    emit_getgl(as, RID_TMP, jit_base);
++  emit_getgl(as, tmp, cur_L);
++  if (allow == RSET_EMPTY)  /* Spill temp register. */
++    emit_lso(as, RISCVI_SD, tmp, RID_SP, 0);
++}
++
++/* Restore Lua stack from on-trace state. */
++static void asm_stack_restore(ASMState *as, SnapShot *snap)
++{
++  SnapEntry *map = &as->T->snapmap[snap->mapofs];
++#ifdef LUA_USE_ASSERT
++  SnapEntry *flinks = &as->T->snapmap[snap_nextofs(as->T, snap)-1-LJ_FR2];
++#endif
++  MSize n, nent = snap->nent;
++  /* Store the value of all modified slots to the Lua stack. */
++  for (n = 0; n < nent; n++) {
++    SnapEntry sn = map[n];
++    BCReg s = snap_slot(sn);
++    int32_t ofs = 8*((int32_t)s-1-LJ_FR2);
++    IRRef ref = snap_ref(sn);
++    IRIns *ir = IR(ref);
++    if ((sn & SNAP_NORESTORE))
++      continue;
++    if (irt_isnum(ir->t)) {
++      Reg src = ra_alloc1(as, ref, RSET_FPR);
++      emit_lso(as, RISCVI_FSD, src, RID_BASE, ofs);
++    } else {
++      if ((sn & SNAP_KEYINDEX)) {
++        RegSet allow = rset_exclude(RSET_GPR, RID_BASE);
++	int64_t kki = (int64_t)LJ_KEYINDEX << 32;
++	if (irref_isk(ref)) {
++	  emit_lso(as, RISCVI_SD,
++       ra_allock(as, kki | (int64_t)(uint32_t)ir->i, allow),
++       RID_BASE, ofs);
++	} else {
++	  Reg src = ra_alloc1(as, ref, allow);
++	  Reg rki = ra_allock(as, kki, rset_exclude(allow, src));
++	  emit_lso(as, RISCVI_SD, RID_TMP, RID_BASE, ofs);
++	  emit_ds1s2(as, RISCVI_ADD, RID_TMP, src, rki);
++	}
++      } else {
++        asm_tvstore64(as, RID_BASE, ofs, ref);
++      }
++    }
++    checkmclim(as);
++  }
++  lj_assertA(map + nent == flinks, "inconsistent frames in snapshot");
++}
++
++/* -- GC handling --------------------------------------------------------- */
++
++/* Marker to prevent patching the GC check exit. */
++#define RISCV_NOPATCH_GC_CHECK \
++  (RISCVI_OR|RISCVF_D(RID_TMP)|RISCVF_S1(RID_TMP)|RISCVF_S2(RID_TMP))
++
++/* Check GC threshold and do one or more GC steps. */
++static void asm_gc_check(ASMState *as)
++{
++  const CCallInfo *ci = &lj_ir_callinfo[IRCALL_lj_gc_step_jit];
++  IRRef args[2];
++  MCLabel l_end;
++  Reg tmp;
++  ra_evictset(as, RSET_SCRATCH);
++  l_end = emit_label(as);
++  /* Exit trace if in GCSatomic or GCSfinalize. Avoids syncing GC objects. */
++  asm_guard(as, RISCVI_BNE, RID_RET, RID_ZERO);	/* Assumes asm_snap_prep() already done. */
++  *--as->mcp = RISCV_NOPATCH_GC_CHECK;
++  args[0] = ASMREF_TMP1;  /* global_State *g */
++  args[1] = ASMREF_TMP2;  /* MSize steps     */
++  asm_gencall(as, ci, args);
++  emit_ds(as, RISCVI_MV, ra_releasetmp(as, ASMREF_TMP1), RID_GL);
++  tmp = ra_releasetmp(as, ASMREF_TMP2);
++  emit_loadi(as, tmp, as->gcsteps);
++  /* Jump around GC step if GC total < GC threshold. */
++  emit_branch(as, RISCVI_BLTU, RID_TMP, tmp, l_end, 0);
++  emit_getgl(as, tmp, gc.threshold);
++  emit_getgl(as, RID_TMP, gc.total);
++  as->gcsteps = 0;
++  checkmclim(as);
++}
++
++/* -- Loop handling ------------------------------------------------------- */
++
++/* Fixup the loop branch. */
++static void asm_loop_fixup(ASMState *as)
++{
++  MCode *p = as->mctop;
++  MCode *target = as->mcp;
++  ptrdiff_t delta;
++  if (as->loopinv) {  /* Inverted loop branch? */
++    delta = (char *)target - (char *)(p - 2);
++    /* asm_guard* already inverted the branch, and patched the final b. */
++    lj_assertA(checki21(delta), "branch target out of range");
++    p[-2] = (p[-2]&0x00000fff) | RISCVF_IMMJ(delta);
++  } else {
++    /* J */
++    delta = (char *)target - (char *)(p - 1);
++    p[-1] = RISCVI_JAL | RISCVF_IMMJ(delta);
++  }
++}
++
++/* Fixup the tail of the loop. */
++static void asm_loop_tail_fixup(ASMState *as)
++{
++  UNUSED(as);  /* Nothing to do(?) */
++}
++
++/* -- Head of trace ------------------------------------------------------- */
++
++/* Coalesce BASE register for a root trace. */
++static void asm_head_root_base(ASMState *as)
++{
++  IRIns *ir = IR(REF_BASE);
++  Reg r = ir->r;
++  if (ra_hasreg(r)) {
++    ra_free(as, r);
++    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
++      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
++    if (r != RID_BASE)
++      emit_mv(as, r, RID_BASE);
++  }
++}
++
++/* Coalesce BASE register for a side trace. */
++static RegSet asm_head_side_base(ASMState *as, IRIns *irp, RegSet allow)
++{
++  IRIns *ir = IR(REF_BASE);
++  Reg r = ir->r;
++  if (ra_hasreg(r)) {
++    ra_free(as, r);
++    if (rset_test(as->modset, r) || irt_ismarked(ir->t))
++      ir->r = RID_INIT;  /* No inheritance for modified BASE register. */
++    if (irp->r == r) {
++      rset_clear(allow, r);  /* Mark same BASE register as coalesced. */
++    } else if (ra_hasreg(irp->r) && rset_test(as->freeset, irp->r)) {
++      rset_clear(allow, irp->r);
++      emit_mv(as, r, irp->r);  /* Move from coalesced parent reg. */
++    } else {
++      emit_getgl(as, r, jit_base);  /* Otherwise reload BASE. */
++    }
++  }
++  return allow;
++}
++
++/* -- Tail of trace ------------------------------------------------------- */
++
++/* Fixup the tail code. */
++static void asm_tail_fixup(ASMState *as, TraceNo lnk)
++{
++  MCode *p = as->mctop;
++  MCode *target = lnk ? traceref(as->J,lnk)->mcode : (MCode *)lj_vm_exit_interp;
++  int32_t spadj = as->T->spadjust;
++  if (spadj == 0) {
++    p[-3] = RISCVI_NOP;
++    // as->mctop = p-2;
++  } else {
++    /* Patch stack adjustment. */
++    p[-3] = RISCVI_ADDI | RISCVF_D(RID_SP) | RISCVF_S1(RID_SP) | RISCVF_IMMI(spadj);
++  }
++  /* Patch exit jump. */
++  ptrdiff_t delta = (char *)target - (char *)(p - 2);
++  p[-2] = RISCVI_AUIPC | RISCVF_D(RID_TMP) | RISCVF_IMMU(RISCVF_HI(delta));
++  p[-1] = RISCVI_JALR | RISCVF_S1(RID_TMP) | RISCVF_IMMI(RISCVF_LO(delta));
++}
++
++/* Prepare tail of code. */
++static void asm_tail_prep(ASMState *as)
++{
++  MCode *p = as->mctop - 2;  /* Leave room for exitstub. */
++  if (as->loopref) {
++    as->invmcp = as->mcp = p;
++  } else {
++    as->mcp = p-1;  /* Leave room for stack pointer adjustment. */
++    as->invmcp = NULL;
++  }
++  p[0] = p[1] = RISCVI_NOP;  /* Prevent load/store merging. */
++}
++
++/* -- Trace setup --------------------------------------------------------- */
++
++/* Ensure there are enough stack slots for call arguments. */
++static Reg asm_setup_call_slots(ASMState *as, IRIns *ir, const CCallInfo *ci)
++{
++  IRRef args[CCI_NARGS_MAX*2];
++  uint32_t i, nargs = CCI_XNARGS(ci);
++  int nslots = 0, ngpr = REGARG_NUMGPR, nfpr = REGARG_NUMFPR;
++  asm_collectargs(as, ir, ci, args);
++  for (i = 0; i < nargs; i++) {
++    if (args[i] && irt_isfp(IR(args[i])->t)) {
++      if (nfpr > 0) {
++        nfpr--; if(ci->flags & CCI_VARARG) ngpr--;
++      } else if (!(ci->flags & CCI_VARARG) && ngpr > 0) ngpr--;
++      else nslots += 2;
++    } else {
++      if (ngpr > 0) {
++        ngpr--; if(ci->flags & CCI_VARARG) nfpr--;
++      } else nslots += 2;
++    }
++  }
++  if (nslots > as->evenspill)  /* Leave room for args in stack slots. */
++    as->evenspill = nslots;
++  return REGSP_HINT(RID_RET);
++}
++
++static void asm_setup_target(ASMState *as)
++{
++  asm_sparejump_setup(as);
++  asm_exitstub_setup(as, as->T->nsnap + (as->parent ? 1 : 0));
++}
++
++/* -- Trace patching ------------------------------------------------------ */
++
++/* Patch exit jumps of existing machine code to a new target. */
++void lj_asm_patchexit(jit_State *J, GCtrace *T, ExitNo exitno, MCode *target)
++{
++  MCode *p = T->mcode;
++  MCode *pe = (MCode *)((char *)p + T->szmcode);
++  MCode *px = exitstub_trace_addr(T, exitno);
++  MCode *cstart = NULL;
++  MCode *mcarea = lj_mcode_patch(J, p, 0);
++
++  for (; p < pe; p++) {
++    /* Look for exitstub branch, replace with branch to target. */
++    ptrdiff_t odelta = (char *)px - (char *)(p+1),
++              ndelta = (char *)target - (char *)(p+1);
++    if ((((p[0] ^ RISCVF_IMMB(8)) & 0xfe000f80u) == 0 &&
++         ((p[0] & 0x0000007fu) == 0x63u) &&
++         ((p[1] ^ RISCVF_IMMJ(odelta)) & 0xfffff000u) == 0 &&
++         ((p[1] & 0x0000007fu) == 0x6fu) && p[-1] != RISCV_NOPATCH_GC_CHECK) ||
++        (((p[1] ^ RISCVF_IMMJ(odelta)) & 0xfffff000u) == 0 &&
++         ((p[1] & 0x0000007fu) == 0x6fu) && p[0] != RISCV_NOPATCH_GC_CHECK)) {
++      lj_assertJ(checki32(ndelta), "branch target out of range");
++      /* Patch jump, if within range. */
++	    patchbranch:
++      if (checki21(ndelta)) { /* Patch jump */
++  p[1] = RISCVI_JAL | RISCVF_IMMJ(ndelta);
++  if (!cstart) cstart = p + 1;
++      } else {  /* Branch out of range. Use spare jump slot in mcarea. */
++  MCode *mcjump = asm_sparejump_use(mcarea, target);
++  if (mcjump) {
++	  lj_mcode_sync(mcjump, mcjump+2);
++    ndelta = (char *)mcjump - (char *)(p+1);
++    if (checki21(ndelta)) {
++      goto patchbranch;
++    } else {
++      lj_assertJ(0, "spare jump out of range: -Osizemcode too big");
++    }
++  }
++	/* Ignore jump slot overflow. Child trace is simply not attached. */
++      }
++    } else if (p+2 == pe) {
++      if (p[0] == RISCVI_NOP && p[1] == RISCVI_NOP) {
++  ptrdiff_t delta = (char *)target - (char *)p;
++  lj_assertJ(checki32(delta), "jump target out of range");
++  p[0] = RISCVI_AUIPC | RISCVF_D(RID_TMP) | RISCVF_IMMU(RISCVF_HI(delta));
++  p[1] = RISCVI_JALR | RISCVF_S1(RID_TMP) | RISCVF_IMMI(RISCVF_LO(delta));
++  if (!cstart) cstart = p + 2;
++      }
++    }
++  }
++  if (cstart) lj_mcode_sync(cstart, px+1);
++  lj_mcode_patch(J, mcarea, 1);
++}
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_emit_riscv.h b/bundle/LuaJIT-2.1-20220411/src/lj_emit_riscv.h
+new file mode 100644
+index 0000000..c7273d5
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_emit_riscv.h
+@@ -0,0 +1,516 @@
++/*
++** RISC-V instruction emitter.
++** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h
++*/
++
++#include "lj_target.h"
++#include <stdint.h>
++static intptr_t get_k64val(ASMState *as, IRRef ref)
++{
++  IRIns *ir = IR(ref);
++  if (ir->o == IR_KINT64) {
++    return (intptr_t)ir_kint64(ir)->u64;
++  } else if (ir->o == IR_KGC) {
++    return (intptr_t)ir_kgc(ir);
++  } else if (ir->o == IR_KPTR || ir->o == IR_KKPTR) {
++    return (intptr_t)ir_kptr(ir);
++  } else {
++    lj_assertA(ir->o == IR_KINT || ir->o == IR_KNULL,
++               "bad 64 bit const IR op %d", ir->o);
++    return ir->i;  /* Sign-extended. */
++  }
++}
++
++#define get_kval(as, ref)       get_k64val(as, ref)
++
++/* -- Emit basic instructions --------------------------------------------- */
++
++static void emit_r(ASMState *as, RISCVIns riscvi, Reg rd, Reg rs1, Reg rs2)
++{
++  *--as->mcp = riscvi | RISCVF_D(rd) | RISCVF_S1(rs1) | RISCVF_S2(rs2);
++}
++
++#define emit_ds(as, riscvi, rd, rs1)         emit_r(as, riscvi, rd, rs1, 0)
++#define emit_ds2(as, riscvi, rd, rs2)         emit_r(as, riscvi, rd, 0, rs2)
++#define emit_ds1s2(as, riscvi, rd, rs1, rs2)         emit_r(as, riscvi, rd, rs1, rs2)
++
++static void emit_r4(ASMState *as, RISCVIns riscvi, Reg rd, Reg rs1, Reg rs2, Reg rs3)
++{
++  *--as->mcp = riscvi | RISCVF_D(rd) | RISCVF_S1(rs1) | RISCVF_S2(rs2) | RISCVF_S3(rs3);
++}
++
++#define emit_ds1s2s3(as, riscvi, rd, rs1, rs2, rs3)         emit_r4(as, riscvi, rd, rs1, rs2, rs3)
++
++static void emit_i(ASMState *as, RISCVIns riscvi, Reg rd, Reg rs1, int32_t i)
++{
++  *--as->mcp = riscvi | RISCVF_D(rd) | RISCVF_S1(rs1) | RISCVF_IMMI((uint32_t)i & 0xfff);
++}
++
++#define emit_di(as, riscvi, rd, i)         emit_i(as, riscvi, rd, 0, i)
++#define emit_dsi(as, riscvi, rd, rs1, i)     emit_i(as, riscvi, rd, rs1, i)
++#define emit_dsshamt(as, riscvi, rd, rs1, i) emit_i(as, riscvi, rd, rs1, i&0x3f)
++
++static void emit_s(ASMState *as, RISCVIns riscvi, Reg rs1, Reg rs2, int32_t i)
++{
++  *--as->mcp = riscvi | RISCVF_S1(rs1) | RISCVF_S2(rs2) | RISCVF_IMMS((uint32_t)i & 0xfff);
++}
++
++#define emit_s1s2i(as, riscvi, rs1, rs2, i)  emit_s(as, riscvi, rs1, rs2, i)
++
++/*
++static void emit_b(ASMState *as, RISCVIns riscvi, Reg rs1, Reg rs2, int32_t i)
++{
++  *--as->mcp = riscvi | RISCVF_S1(rs1) | RISCVF_S2(rs2) | RISCVF_IMMB((uint32_t)i & 0x1ffe);
++}
++*/
++
++static void emit_u(ASMState *as, RISCVIns riscvi, Reg rd, uint32_t i)
++{
++  *--as->mcp = riscvi | RISCVF_D(rd) | RISCVF_IMMU(i & 0xfffff);
++}
++
++#define emit_du(as, riscvi, rd, i)           emit_u(as, riscvi, rd, i)
++
++/*
++static void emit_j(ASMState *as, RISCVIns riscvi, Reg rd, int32_t i)
++{
++  *--as->mcp = riscvi | RISCVF_D(rd) | RISCVF_IMMJ((uint32_t)i & 0x1fffffe);
++}
++*/
++
++static Reg ra_allock(ASMState *as, intptr_t k, RegSet allow);
++static void ra_allockreg(ASMState *as, intptr_t k, Reg r);
++static Reg ra_scratch(ASMState *as, RegSet allow);
++
++static void emit_lso(ASMState *as, RISCVIns riscvi, Reg data, Reg base, int32_t ofs)
++{
++  lj_assertA(checki12(ofs), "load/store offset %d out of range", ofs);
++  switch (riscvi) {
++    case RISCVI_LD: case RISCVI_LW: case RISCVI_LH: case RISCVI_LB:
++    case RISCVI_LWU: case RISCVI_LHU: case RISCVI_LBU:
++    case RISCVI_FLW: case RISCVI_FLD:
++      emit_dsi(as, riscvi, data, base, ofs);
++      break;
++    case RISCVI_SD: case RISCVI_SW: case RISCVI_SH: case RISCVI_SB:
++    case RISCVI_FSW: case RISCVI_FSD:
++      emit_s1s2i(as, riscvi, base, data, ofs);
++      break;
++    default: lj_assertA(0, "invalid lso"); break;
++  }
++}
++
++static void emit_roti(ASMState *as, RISCVIns riscvi, Reg rd, Reg rs1, int32_t shamt)
++{
++  if (as->flags & JIT_F_RVZbb || as->flags & JIT_F_RVXThead) {
++    if (as->flags & JIT_F_RVXThead) switch (riscvi) {
++      case RISCVI_RORI: riscvi = RISCVI_TH_SRRI; break;
++      case RISCVI_RORIW: riscvi = RISCVI_TH_SRRIW; break;
++      default: lj_assertA(0, "invalid roti op"); break;
++    }
++    emit_dsshamt(as, riscvi, rd, rs1, shamt);
++  } else {
++    RISCVIns ai, bi;
++    int32_t shwid, shmsk;
++    switch (riscvi) {
++      case RISCVI_RORI:
++        ai = RISCVI_SRLI, bi = RISCVI_SLLI;
++        shwid = 64, shmsk = 63;
++        break;
++      case RISCVI_RORIW:
++        ai = RISCVI_SRLIW, bi = RISCVI_SLLIW;
++        shwid = 32, shmsk = 31;
++        break;
++      default:
++        lj_assertA(0, "invalid roti op");
++        return;
++    }
++    emit_ds1s2(as, RISCVI_OR, rd, rd, RID_TMP);
++    emit_dsshamt(as, bi, rd, rs1, (shwid - shamt)&shmsk);
++    emit_dsshamt(as, ai, RID_TMP, rs1, shamt&shmsk);
++  }
++}
++
++static void emit_rot(ASMState *as, RISCVIns riscvi, Reg rd, Reg rs1, Reg rs2)
++{
++  if (as->flags & JIT_F_RVZbb) {
++    emit_ds1s2(as, riscvi, rd, rs1, rs2);
++  } else {
++    RISCVIns sai, sbi;
++    switch (riscvi) {
++      case RISCVI_ROL:
++        sai = RISCVI_SLL, sbi = RISCVI_SRL;
++        break;
++      case RISCVI_ROR:
++        sai = RISCVI_SRL, sbi = RISCVI_SLL;
++        break;
++      case RISCVI_ROLW:
++        sai = RISCVI_SLLW, sbi = RISCVI_SRLW;
++        break;
++      case RISCVI_RORW:
++        sai = RISCVI_SRLW, sbi = RISCVI_SLLW;
++        break;
++      default:
++        lj_assertA(0, "invalid rot op");
++        return;
++    }
++    if (rd == rs2) {
++      emit_ds1s2(as, RISCVI_OR, rd, rd, RID_TMP);
++      emit_ds1s2(as, sbi, RID_TMP, rs1, RID_TMP);
++      emit_ds1s2(as, sai, rd, rs1, rs2);
++      emit_ds2(as, RISCVI_NEG, RID_TMP, rs2);
++    } else {
++      emit_ds1s2(as, RISCVI_OR, rd, rd, RID_TMP);
++      emit_ds1s2(as, sai, rd, rs1, rs2);
++      emit_ds1s2(as, sbi, RID_TMP, rs1, RID_TMP);
++      emit_ds2(as, RISCVI_NEG, RID_TMP, rs2);
++    }
++  }
++}
++
++static void emit_ext(ASMState *as, RISCVIns riscvi, Reg rd, Reg rs1)
++{
++  if ((riscvi != RISCVI_ZEXT_W && as->flags & JIT_F_RVZbb) ||
++      (riscvi == RISCVI_ZEXT_W && as->flags & JIT_F_RVZba)) {
++    emit_ds(as, riscvi, rd, rs1);
++  } else if (as->flags & JIT_F_RVXThead) {
++    uint32_t hi, sext;
++    switch (riscvi) {
++      case RISCVI_ZEXT_B:
++      case RISCVI_SEXT_W:
++        emit_ds(as, riscvi, rd, rs1);
++        return;
++      case RISCVI_ZEXT_H:
++        hi = 15, sext = 0;
++        break;
++      case RISCVI_ZEXT_W:
++        hi = 31, sext = 0;
++        break;
++      case RISCVI_SEXT_B:
++        hi = 7, sext = 1;
++        break;
++      case RISCVI_SEXT_H:
++        hi = 15, sext = 1;
++        break;
++      default:
++        lj_assertA(0, "invalid ext op");
++        return;
++    }
++    emit_dsi(as, sext ? RISCVI_TH_EXT : RISCVI_TH_EXTU,
++      rd, rs1, hi << 6);
++  } else {
++    RISCVIns sli, sri;
++    int32_t shamt;
++    switch (riscvi) {
++      case RISCVI_ZEXT_B:
++      case RISCVI_SEXT_W:
++        emit_ds(as, riscvi, rd, rs1);
++        return;
++      case RISCVI_ZEXT_H:
++        sli = RISCVI_SLLI, sri = RISCVI_SRLI;
++        shamt = 48;
++        break;
++      case RISCVI_ZEXT_W:
++        sli = RISCVI_SLLI, sri = RISCVI_SRLI;
++        shamt = 32;
++        break;
++      case RISCVI_SEXT_B:
++        sli = RISCVI_SLLI, sri = RISCVI_SRAI;
++        shamt = 56;
++        break;
++      case RISCVI_SEXT_H:
++        sli = RISCVI_SLLI, sri = RISCVI_SRAI;
++        shamt = 48;
++        break;
++      default:
++        lj_assertA(0, "invalid ext op");
++        return;
++    }
++    emit_dsshamt(as, sri, rd, rd, shamt);   
++    emit_dsshamt(as, sli, rd, rs1, shamt);
++  }
++}
++
++static void emit_cleartp(ASMState *as, Reg rd, Reg rs1)
++{
++  if (as->flags & JIT_F_RVXThead) {
++    emit_dsi(as, RISCVI_TH_EXTU, rd, rs1, 46u << 6);
++  } else {
++    emit_dsshamt(as, RISCVI_SRLI, rd, rd, 17);
++    emit_dsshamt(as, RISCVI_SLLI, rd, rs1, 17);
++  }
++}
++
++static void emit_andn(ASMState *as, Reg rd, Reg rs1, Reg rs2, Reg tmp)
++{
++  if (as->flags & JIT_F_RVZbb) {
++    emit_ds1s2(as, RISCVI_ANDN, rd, rs1, rs2);
++  } else {
++    emit_ds1s2(as, RISCVI_AND, rd, rs1, tmp);
++    emit_ds(as, RISCVI_NOT, tmp, rs2);
++  }
++}
++
++static void emit_orn(ASMState *as, Reg rd, Reg rs1, Reg rs2, Reg tmp)
++{
++  if (as->flags & JIT_F_RVZbb) {
++    emit_ds1s2(as, RISCVI_ORN, rd, rs1, rs2);
++  } else {
++    emit_ds1s2(as, RISCVI_OR, rd, rs1, tmp);
++    emit_ds(as, RISCVI_NOT, tmp, rs2);
++  }
++}
++
++static void emit_xnor(ASMState *as, Reg rd, Reg rs1, Reg rs2)
++{
++  if (as->flags & JIT_F_RVZbb) {
++    emit_ds1s2(as, RISCVI_XNOR, rd, rs1, rs2);
++  } else {
++    emit_ds(as, RISCVI_NOT, rd, rd);
++    emit_ds1s2(as, RISCVI_XOR, rd, rs1, rs2);
++  }
++}
++
++static void emit_shxadd(ASMState *as, Reg rd, Reg rs1, Reg rs2, unsigned int shamt)
++{
++  if (as->flags & JIT_F_RVZba) {
++    switch (shamt) {
++      case 1: emit_ds1s2(as, RISCVI_SH1ADD, rd, rs2, rs1); break;
++      case 2: emit_ds1s2(as, RISCVI_SH2ADD, rd, rs2, rs1); break;
++      case 3: emit_ds1s2(as, RISCVI_SH3ADD, rd, rs2, rs1); break;
++      default: return;
++    }
++  } else if (as->flags & JIT_F_RVXThead) {
++    emit_dsi(as, RISCVI_TH_ADDSL|RISCVF_IMMI(shamt<<5), rd, rs1, rs2);
++  } else {
++    emit_ds1s2(as, RISCVI_ADD, rd, rs1, RID_TMP);
++    emit_dsshamt(as, RISCVI_SLLI, RID_TMP, rs2, 3);
++  }
++}
++
++#define emit_sh1add(as, rd, rs1, rs2) emit_shxadd(as, rd, rs1, rs2, 1)
++#define emit_sh2add(as, rd, rs1, rs2) emit_shxadd(as, rd, rs1, rs2, 2)
++#define emit_sh3add(as, rd, rs1, rs2) emit_shxadd(as, rd, rs1, rs2, 3)
++
++static void emit_loadk12(ASMState *as, Reg rd, int32_t i)
++{
++  emit_di(as, RISCVI_ADDI, rd, i);
++}
++
++static void emit_loadk32(ASMState *as, Reg rd, int32_t i)
++{
++  if (checki12((int64_t)i)) {
++    emit_loadk12(as, rd, i);
++  } else {
++    if(LJ_UNLIKELY(RISCVF_HI((uint32_t)i) == 0x80000u && i > 0))
++      emit_dsi(as, RISCVI_XORI, rd, rd, RISCVF_LO(i));
++    else
++    emit_dsi(as, RISCVI_ADDI, rd, rd, RISCVF_LO(i));
++    emit_du(as, RISCVI_LUI, rd, RISCVF_HI((uint32_t)i));
++  }
++}
++
++/* -- Emit loads/stores --------------------------------------------------- */
++
++/* Prefer rematerialization of BASE/L from global_State over spills. */
++#define emit_canremat(ref)	((ref) <= REF_BASE)
++
++
++/* Load a 32 bit constant into a GPR. */
++#define emit_loadi(as, r, i)	emit_loadk32(as, r, i);
++
++/* Load a 64 bit constant into a GPR. */
++static void emit_loadu64(ASMState *as, Reg r, uint64_t u64)
++{
++  if (checki32((int64_t)u64)) {
++    emit_loadk32(as, r, (int32_t)u64);
++  } else {
++    uint32_t lo32 = u64 & 0xfffffffful;
++    RISCVIns instrs[7] = {0};
++    int shamt = 0, step = 0;
++    for(int bit = 0; bit < 32; bit++) {
++      if (lo32 & (1u << bit)) {
++  if (shamt) instrs[step++] = RISCVI_SLLI | RISCVF_D(r) | RISCVF_S1(r) | RISCVF_IMMI(shamt);
++  int inc = bit+10 > 31 ? 31-bit : 10;
++  bit += inc, shamt = inc+1;
++  uint32_t msk = ((1ul << (bit+1))-1)^((1ul << (((bit-inc) >= 0) ? (bit-inc) : 0))-1);
++  uint16_t payload = (lo32 & msk) >> (((bit-inc) >= 0) ? (bit-inc) : 0);
++  instrs[step++] = RISCVI_ADDI | RISCVF_D(r) | RISCVF_S1(r) | RISCVF_IMMI(payload);
++      } else shamt++;
++    }
++    if (shamt) instrs[step++] = RISCVI_SLLI | RISCVF_D(r) | RISCVF_S1(r) | RISCVF_IMMI(shamt);
++
++    if (step < 6) {
++      for(int i = 0; i < step; i++)
++        *--as->mcp = instrs[i];
++    } else {
++      emit_dsi(as, RISCVI_ADDI, r, r, u64 & 0x3ff);
++      emit_dsshamt(as, RISCVI_SLLI, r, r, 10);
++      emit_dsi(as, RISCVI_ADDI, r, r, (u64 >> 10) & 0x7ff);
++      emit_dsshamt(as, RISCVI_SLLI, r, r, 11);
++      emit_dsi(as, RISCVI_ADDI, r, r, (u64 >> 21) & 0x7ff);
++      emit_dsshamt(as, RISCVI_SLLI, r, r, 11);
++    }
++
++    uint32_t hi32 = u64 >> 32;
++    if (hi32 & 0xfff) emit_loadk32(as, r, hi32);
++    else emit_du(as, RISCVI_LUI, r, hi32 >> 12);
++  }
++}
++
++#define emit_loada(as, r, addr)	emit_loadu64(as, (r), u64ptr((addr)))
++
++/* Get/set from constant pointer. */
++static void emit_lsptr(ASMState *as, RISCVIns riscvi, Reg r, void *p, RegSet allow)
++{
++  emit_lso(as, riscvi, r, ra_allock(as, igcptr(p), allow), 0);
++}
++
++/* Load 64 bit IR constant into register. */
++static void emit_loadk64(ASMState *as, Reg r, IRIns *ir)
++{
++  const uint64_t *k = &ir_k64(ir)->u64;
++  Reg r64 = r;
++  if (rset_test(RSET_FPR, r)) {
++    r64 = RID_TMP;
++    emit_ds(as, RISCVI_FMV_D_X, r, r64);
++  }
++  emit_loadu64(as, r64, *k);
++}
++
++/* Get/set global_State fields. */
++static void emit_lsglptr(ASMState *as, RISCVIns riscvi, Reg r, int32_t ofs)
++{
++  emit_lso(as, riscvi, r, RID_GL, ofs);
++}
++
++#define emit_getgl(as, r, field) \
++  emit_lsglptr(as, RISCVI_LD, (r), (int32_t)offsetof(global_State, field))
++#define emit_setgl(as, r, field) \
++  emit_lsglptr(as, RISCVI_SD, (r), (int32_t)offsetof(global_State, field))
++
++/* Trace number is determined from per-trace exit stubs. */
++#define emit_setvmstate(as, i)		UNUSED(i)
++
++/* -- Emit control-flow instructions -------------------------------------- */
++
++/* Label for internal jumps. */
++typedef MCode *MCLabel;
++
++/* Return label pointing to current PC. */
++#define emit_label(as)		((as)->mcp)
++
++static void emit_branch(ASMState *as, RISCVIns riscvi, Reg rs1, Reg rs2, MCode *target, int jump)
++{
++  MCode *p = as->mcp;
++  ptrdiff_t delta = (char *)target - (char *)(p - 1);
++  // lj_assertA(((delta + 0x10000) >> 13) == 0, "branch target out of range"); /* B */
++  lj_assertA(((delta + 0x100000) >> 21) == 0, "branch target out of range"); /* ^B+J */
++  if (checki13(delta) && !jump) {
++    *--p = riscvi | RISCVF_S1(rs1) | RISCVF_S2(rs2) | RISCVF_IMMB(delta);
++    *--p = RISCVI_NOP;
++  } else {
++    *--p = RISCVI_JAL | RISCVF_IMMJ(delta); /* Poorman's trampoline */
++    *--p = (riscvi^0x00001000) | RISCVF_S1(rs1) | RISCVF_S2(rs2) | RISCVF_IMMB(8);
++  }
++  as->mcp = p;
++}
++
++static void emit_jmp(ASMState *as, MCode *target)
++{
++  MCode *p = as->mcp;
++  ptrdiff_t delta = (char *)target - (char *)(p - 2);
++  // lj_assertA(((delta + 0x100000) >> 21) == 0, "jump target out of range"); /* J */
++  lj_assertA(checki32(delta), "jump target out of range"); /* AUIPC+JALR */
++  if (checki21(delta)) {
++    *--p = RISCVI_NOP;
++    *--p = RISCVI_JAL | RISCVF_IMMJ(delta);
++  } else {
++    *--p = RISCVI_JALR | RISCVF_S1(RID_TMP) | RISCVF_IMMI(RISCVF_LO(delta));
++    *--p = RISCVI_AUIPC | RISCVF_D(RID_TMP) | RISCVF_IMMU(RISCVF_HI(delta));
++  }
++  as->mcp = p;
++}
++
++#define emit_mv(as, dst, src) \
++  emit_ds(as, RISCVI_MV, (dst), (src))
++
++static void emit_call(ASMState *as, void *target, int needcfa)
++{
++  MCode *p = as->mcp;
++  ptrdiff_t delta = (char *)target - (char *)(p - 2);
++  if (checki21(delta)) {
++    *--p = RISCVI_NOP;
++    *--p = RISCVI_JAL | RISCVF_D(RID_RA) | RISCVF_IMMJ(delta);
++  } else if (checki32(delta)) {
++    *--p = RISCVI_JALR | RISCVF_D(RID_RA) | RISCVF_S1(RID_TMP) | RISCVF_IMMI(RISCVF_LO(delta));
++    *--p = RISCVI_AUIPC | RISCVF_D(RID_TMP) | RISCVF_IMMU(RISCVF_HI(delta));
++    needcfa = 1;
++  } else {
++    *--p = RISCVI_JALR | RISCVF_D(RID_RA) | RISCVF_S1(RID_CFUNCADDR) | RISCVF_IMMI(0);
++    needcfa = 2;
++  }
++  as->mcp = p;
++  if (needcfa > 1)
++    ra_allockreg(as, (intptr_t)target, RID_CFUNCADDR);
++}
++
++/* -- Emit generic operations --------------------------------------------- */
++
++/* Generic move between two regs. */
++static void emit_movrr(ASMState *as, IRIns *ir, Reg dst, Reg src)
++{
++  if (src < RID_MAX_GPR && dst < RID_MAX_GPR)
++    emit_mv(as, dst, src);
++  else if (src < RID_MAX_GPR)
++    emit_ds(as, irt_isnum(ir->t) ? RISCVI_FMV_D_X : RISCVI_FMV_W_X, dst, src);
++  else if (dst < RID_MAX_GPR)
++    emit_ds(as, irt_isnum(ir->t) ? RISCVI_FMV_X_D : RISCVI_FMV_X_W, dst, src);
++  else
++    emit_ds1s2(as, irt_isnum(ir->t) ? RISCVI_FMV_D : RISCVI_FMV_S, dst, src, src);
++}
++
++/* Emit an arithmetic operation with a constant operand. */
++static void emit_opk(ASMState *as, RISCVIns riscvi, Reg dest, Reg src,
++         intptr_t k)
++{
++  if (checki12(k)) emit_dsi(as, riscvi, dest, src, k);
++  else {
++    switch (riscvi) {
++      case RISCVI_ADDI: riscvi = RISCVI_ADD; break;
++      case RISCVI_XORI: riscvi = RISCVI_XOR; break;
++      case RISCVI_ORI: riscvi = RISCVI_OR; break;
++      case RISCVI_ANDI: riscvi = RISCVI_AND; break;
++      default: lj_assertA(0, "NYI arithmetic RISCVIns"); return;
++    }
++    emit_ds1s2(as, riscvi, dest, src, RID_TMP);
++    emit_loadu64(as, RID_TMP, (uintptr_t)k);
++  }
++}
++
++/* Generic load of register with base and (small) offset address. */
++static void emit_loadofs(ASMState *as, IRIns *ir, Reg r, Reg base, int32_t ofs)
++{
++  if (r < RID_MAX_GPR)
++    emit_lso(as, irt_is64(ir->t) ? RISCVI_LD : RISCVI_LW, r, base, ofs);
++  else
++    emit_lso(as, irt_isnum(ir->t) ? RISCVI_FLD : RISCVI_FLW, r, base, ofs);
++}
++
++/* Generic store of register with base and (small) offset address. */
++static void emit_storeofs(ASMState *as, IRIns *ir, Reg r, Reg base, int32_t ofs)
++{
++  if (r < RID_MAX_GPR)
++    emit_lso(as, irt_is64(ir->t) ? RISCVI_SD : RISCVI_SW, r, base, ofs);
++  else
++    emit_lso(as, irt_isnum(ir->t) ? RISCVI_FSD : RISCVI_FSW, r, base, ofs);
++}
++
++/* Add offset to pointer. */
++static void emit_addptr(ASMState *as, Reg r, int32_t ofs)
++{
++  if (ofs)
++    emit_opk(as, RISCVI_ADDI, r, r, ofs);
++}
++
++
++#define emit_spsub(as, ofs)	emit_addptr(as, RID_SP, -(ofs))
+diff --git a/bundle/LuaJIT-2.1-20220411/src/lj_target_riscv.h b/bundle/LuaJIT-2.1-20220411/src/lj_target_riscv.h
+new file mode 100644
+index 0000000..5089493
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/src/lj_target_riscv.h
+@@ -0,0 +1,513 @@
++/*
++** Definitions for RISC-V CPUs.
++** Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h
++*/
++
++#ifndef _LJ_TARGET_RISCV_H
++#define _LJ_TARGET_RISCV_H
++
++/* -- Registers IDs ------------------------------------------------------- */
++
++#if LJ_ARCH_EMBEDDED
++#define GPRDEF(_) \
++  _(X0) _(RA) _(SP) _(X3) _(X4) _(X5) _(X6) _(X7) \
++  _(X8) _(X9) _(X10) _(X11) _(X12) _(X13) _(X14) _(X15)
++#else
++#define GPRDEF(_) \
++  _(X0) _(RA) _(SP) _(X3) _(X4) _(X5) _(X6) _(X7) \
++  _(X8) _(X9) _(X10) _(X11) _(X12) _(X13) _(X14) _(X15) \
++  _(X16) _(X17) _(X18) _(X19) _(X20) _(X21) _(X22) _(X23) \
++  _(X24) _(X25) _(X26) _(X27) _(X28) _(X29) _(X30) _(X31)
++#endif
++#if LJ_SOFTFP
++#define FPRDEF(_)
++#else
++#define FPRDEF(_) \
++  _(F0) _(F1) _(F2) _(F3) _(F4) _(F5) _(F6) _(F7) \
++  _(F8) _(F9) _(F10) _(F11) _(F12) _(F13) _(F14) _(F15) \
++  _(F16) _(F17) _(F18) _(F19) _(F20) _(F21) _(F22) _(F23) \
++  _(F24) _(F25) _(F26) _(F27) _(F28) _(F29) _(F30) _(F31)
++#endif
++#define VRIDDEF(_)
++
++#define RIDENUM(name)	RID_##name,
++
++enum {
++  GPRDEF(RIDENUM)		/* General-purpose registers (GPRs). */
++  FPRDEF(RIDENUM)		/* Floating-point registers (FPRs). */
++  RID_MAX,
++  RID_ZERO = RID_X0,
++  RID_TMP = RID_RA,
++  RID_GP = RID_X3,
++  RID_TP = RID_X4,
++
++  /* Calling conventions. */
++  RID_RET = RID_X10,
++#if LJ_LE
++  RID_RETHI = RID_X11,
++  RID_RETLO = RID_X10,
++#else
++  RID_RETHI = RID_X10,
++  RID_RETLO = RID_X11,
++#endif
++#if LJ_SOFTFP
++  RID_FPRET = RID_X10,
++#else
++  RID_FPRET = RID_F10,
++#endif
++  RID_CFUNCADDR = RID_X5,
++
++  /* These definitions must match with the *.dasc file(s): */
++  RID_BASE = RID_X18,		/* Interpreter BASE. */
++  RID_LPC = RID_X20,		/* Interpreter PC. */
++  RID_GL = RID_X21,		/* Interpreter GL. */
++  RID_LREG = RID_X23,		/* Interpreter L. */
++
++  /* Register ranges [min, max) and number of registers. */
++  RID_MIN_GPR = RID_X0,
++  RID_MAX_GPR = RID_X31+1,
++  RID_MIN_FPR = RID_MAX_GPR,
++#if LJ_SOFTFP
++  RID_MAX_FPR = RID_MIN_FPR,
++#else
++  RID_MAX_FPR = RID_F31+1,
++#endif
++  RID_NUM_GPR = RID_MAX_GPR - RID_MIN_GPR,
++  RID_NUM_FPR = RID_MAX_FPR - RID_MIN_FPR	/* Only even regs are used. */
++};
++
++#define RID_NUM_KREF		RID_NUM_GPR
++#define RID_MIN_KREF		RID_X0
++
++/* -- Register sets ------------------------------------------------------- */
++
++/* Make use of all registers, except ZERO, TMP, SP, GP, TP, CFUNCADDR and GL. */
++#define RSET_FIXED \
++  (RID2RSET(RID_ZERO)|RID2RSET(RID_TMP)|RID2RSET(RID_SP)|\
++   RID2RSET(RID_GP)|RID2RSET(RID_TP)|RID2RSET(RID_GL))
++#define RSET_GPR	(RSET_RANGE(RID_MIN_GPR, RID_MAX_GPR) - RSET_FIXED)
++#if LJ_SOFTFP
++#define RSET_FPR	0
++#else
++#define RSET_FPR	RSET_RANGE(RID_MIN_FPR, RID_MAX_FPR)
++#endif
++
++#define RSET_ALL	(RSET_GPR|RSET_FPR)
++#define RSET_INIT	RSET_ALL
++
++#define RSET_SCRATCH_GPR \
++  (RSET_RANGE(RID_X5, RID_X7+1)|RSET_RANGE(RID_X28, RID_X31+1)|\
++   RSET_RANGE(RID_X10, RID_X17+1))
++
++#if LJ_SOFTFP
++#define RSET_SCRATCH_FPR	0
++#else
++#define RSET_SCRATCH_FPR \
++  (RSET_RANGE(RID_F0, RID_F7+1)|RSET_RANGE(RID_F10, RID_F17+1)|\
++   RSET_RANGE(RID_F28, RID_F31+1))
++#endif
++#define RSET_SCRATCH		(RSET_SCRATCH_GPR|RSET_SCRATCH_FPR)
++
++#define REGARG_FIRSTGPR		RID_X10
++#define REGARG_LASTGPR		RID_X17
++#define REGARG_NUMGPR		8
++
++#if LJ_ABI_SOFTFP
++#define REGARG_FIRSTFPR		0
++#define REGARG_LASTFPR		0
++#define REGARG_NUMFPR		0
++#else
++#define REGARG_FIRSTFPR		RID_F10
++#define REGARG_LASTFPR		RID_F17
++#define REGARG_NUMFPR		8
++#endif
++
++/* -- Spill slots --------------------------------------------------------- */
++
++/* Spill slots are 32 bit wide. An even/odd pair is used for FPRs.
++**
++** SPS_FIXED: Available fixed spill slots in interpreter frame.
++** This definition must match with the *.dasc file(s).
++**
++** SPS_FIRST: First spill slot for general use.
++*/
++#if LJ_32
++#define SPS_FIXED	5
++#else
++#define SPS_FIXED	4
++#endif
++#define SPS_FIRST	4
++
++#define SPOFS_TMP	0
++
++#define sps_scale(slot)		(4 * (int32_t)(slot))
++#define sps_align(slot)		(((slot) - SPS_FIXED + 3) & ~3)
++
++/* -- Exit state ---------------------------------------------------------- */
++/* This definition must match with the *.dasc file(s). */
++typedef struct {
++#if !LJ_SOFTFP
++  lua_Number fpr[RID_NUM_FPR];	/* Floating-point registers. */
++#endif
++  intptr_t gpr[RID_NUM_GPR];	/* General-purpose registers. */
++  int32_t spill[256];		/* Spill slots. */
++} ExitState;
++
++/* Highest exit + 1 indicates stack check. */
++#define EXITSTATE_CHECKEXIT	1
++
++/* Return the address of a per-trace exit stub. */
++static LJ_AINLINE uint32_t *exitstub_trace_addr_(uint32_t *p, uint32_t exitno)
++{
++  while (*p == 0x00000013) p++;  /* Skip RISCVI_NOP. */
++  return p + 4 + exitno;
++}
++/* Avoid dependence on lj_jit.h if only including lj_target.h. */
++#define exitstub_trace_addr(T, exitno) \
++  exitstub_trace_addr_((MCode *)((char *)(T)->mcode + (T)->szmcode), (exitno))
++
++/* -- Instructions -------------------------------------------------------- */
++
++/* Instruction fields. */
++#define RISCVF_D(d)	(((d)&31) << 7)
++#define RISCVF_S1(r)	(((r)&31) << 15)
++#define RISCVF_S2(r)	(((r)&31) << 20)
++#define RISCVF_S3(r)	(((r)&31) << 27)
++#define RISCVF_FUNCT2(f)	(((f)&3) << 25)
++#define RISCVF_FUNCT3(f)	(((f)&7) << 12)
++#define RISCVF_FUNCT7(f)	(((f)&127) << 25)
++#define RISCVF_SHAMT(s)	((s) << 20)
++#define RISCVF_RM(m)	(((m)&7) << 12)
++#define RISCVF_IMMI(i)	((i) << 20)
++#define RISCVF_IMMS(i)	(((i)&0xfe0) << 20 | ((i)&0x1f) << 7)
++#define RISCVF_IMMB(i)	(((i)&0x1000) << 19 | ((i)&0x800) >> 4 | ((i)&0x7e0) << 20 | ((i)&0x1e) << 7)
++#define RISCVF_IMMU(i)	(((i)&0xfffff) << 12)
++#define RISCVF_IMMJ(i)	(((i)&0x100000) << 11 | ((i)&0xff000) | ((i)&0x800) << 9 | ((i)&0x7fe) << 20)
++
++/* Encode helpers. */
++#define RISCVF_W_HI(w)  ((w) - ((((w)&0xfff)^0x800) - 0x800))
++#define RISCVF_W_LO(w)  ((w)&0xfff)
++#define RISCVF_HI(i)	((RISCVF_W_HI(i) >> 12) & 0xfffff)
++#define RISCVF_LO(i)	RISCVF_W_LO(i)
++
++/* Check for valid field range. */
++#define RISCVF_SIMM_OK(x, b)	((((x) + (1 << (b-1))) >> (b)) == 0)
++#define checki12(i)		RISCVF_SIMM_OK(i, 12)
++#define checki13(i)		RISCVF_SIMM_OK(i, 13)
++#define checki20(i)		RISCVF_SIMM_OK(i, 20)
++#define checki21(i)		RISCVF_SIMM_OK(i, 21)
++
++typedef enum RISCVIns {
++
++  /* --- RVI --- */
++  RISCVI_LUI = 0x00000037,
++  RISCVI_AUIPC = 0x00000017,
++
++  RISCVI_JAL = 0x0000006f,
++  RISCVI_JALR = 0x00000067,
++
++  RISCVI_ADDI = 0x00000013,
++  RISCVI_SLTI = 0x00002013,
++  RISCVI_SLTIU = 0x00003013,
++  RISCVI_XORI = 0x00004013,
++  RISCVI_ORI = 0x00006013,
++  RISCVI_ANDI = 0x00007013,
++
++  RISCVI_SLLI = 0x00001013,
++  RISCVI_SRLI = 0x00005013,
++  RISCVI_SRAI = 0x40005013,
++
++  RISCVI_ADD = 0x00000033,
++  RISCVI_SUB = 0x40000033,
++  RISCVI_SLL = 0x00001033,
++  RISCVI_SLT = 0x00002033,
++  RISCVI_SLTU = 0x00003033,
++  RISCVI_XOR = 0x00004033,
++  RISCVI_SRL = 0x00005033,
++  RISCVI_SRA = 0x40005033,
++  RISCVI_OR = 0x00006033,
++  RISCVI_AND = 0x00007033,
++
++  RISCVI_LB = 0x00000003,
++  RISCVI_LH = 0x00001003,
++  RISCVI_LW = 0x00002003,
++  RISCVI_LBU = 0x00004003,
++  RISCVI_LHU = 0x00005003,
++  RISCVI_SB = 0x00000023,
++  RISCVI_SH = 0x00001023,
++  RISCVI_SW = 0x00002023,
++
++  RISCVI_BEQ = 0x00000063,
++  RISCVI_BNE = 0x00001063,
++  RISCVI_BLT = 0x00004063,
++  RISCVI_BGE = 0x00005063,
++  RISCVI_BLTU = 0x00006063,
++  RISCVI_BGEU = 0x00007063,
++
++  RISCVI_ECALL = 0x00000073,
++  RISCVI_EBREAK = 0x00100073,
++
++  RISCVI_NOP = 0x00000013,
++  RISCVI_MV = 0x00000013,
++  RISCVI_NOT = 0xfff04013,
++  RISCVI_NEG = 0x40000033,
++  RISCVI_RET = 0x00008067,
++  RISCVI_ZEXT_B = 0x0ff07013,
++
++#if LJ_TARGET_RISCV64
++  RISCVI_LWU = 0x00007003,
++  RISCVI_LD = 0x00003003,
++  RISCVI_SD = 0x00003023,
++
++  RISCVI_ADDIW = 0x0000001b,
++
++  RISCVI_SLLIW = 0x0000101b,
++  RISCVI_SRLIW = 0x0000501b,
++  RISCVI_SRAIW = 0x4000501b,
++
++  RISCVI_ADDW = 0x0000003b,
++  RISCVI_SUBW = 0x4000003b,
++  RISCVI_SLLW = 0x0000103b,
++  RISCVI_SRLW = 0x0000503b,
++  RISCVI_SRAW = 0x4000503b,
++
++  RISCVI_NEGW = 0x4000003b,
++  RISCVI_SEXT_W = 0x0000001b,
++#endif
++
++  /* --- RVM --- */
++  RISCVI_MUL = 0x02000033,
++  RISCVI_MULH = 0x02001033,
++  RISCVI_MULHSU = 0x02002033,
++  RISCVI_MULHU = 0x02003033,
++  RISCVI_DIV = 0x02004033,
++  RISCVI_DIVU = 0x02005033,
++  RISCVI_REM = 0x02006033,
++  RISCVI_REMU = 0x02007033,
++#if LJ_TARGET_RISCV64
++  RISCVI_MULW = 0x0200003b,
++  RISCVI_DIVW = 0x0200403b,
++  RISCVI_DIVUW = 0x0200503b,
++  RISCVI_REMW = 0x0200603b,
++  RISCVI_REMUW = 0x0200703b,
++#endif
++
++  /* --- RVF --- */
++  RISCVI_FLW = 0x00002007,
++  RISCVI_FSW = 0x00002027,
++
++  RISCVI_FMADD_S = 0x00000043,
++  RISCVI_FMSUB_S = 0x00000047,
++  RISCVI_FNMSUB_S = 0x0000004b,
++  RISCVI_FNMADD_S = 0x0000004f,
++
++  RISCVI_FADD_S = 0x00000053,
++  RISCVI_FSUB_S = 0x08000053,
++  RISCVI_FMUL_S = 0x10000053,
++  RISCVI_FDIV_S = 0x18000053,
++  RISCVI_FSQRT_S = 0x58000053,
++
++  RISCVI_FSGNJ_S = 0x20000053,
++  RISCVI_FSGNJN_S = 0x20001053,
++  RISCVI_FSGNJX_S = 0x20002053,
++
++  RISCVI_FMIN_S = 0x28000053,
++  RISCVI_FMAX_S = 0x28001053,
++
++  RISCVI_FCVT_W_S = 0xc0000053,
++  RISCVI_FCVT_WU_S = 0xc0100053,
++
++  RISCVI_FMV_X_W = 0xe0000053,
++
++  RISCVI_FEQ_S = 0xa0002053,
++  RISCVI_FLT_S = 0xa0001053,
++  RISCVI_FLE_S = 0xa0000053,
++
++  RISCVI_FCLASS_S = 0xe0001053,
++
++  RISCVI_FCVT_S_W = 0xd0000053,
++  RISCVI_FCVT_S_WU = 0xd0100053,
++  RISCVI_FMV_W_X = 0xf0000033,
++
++  RISCVI_FMV_S = 0x20000053,
++  RISCVI_FNEG_S = 0x20001053,
++  RISCVI_FABS_S = 0x20002053,
++#if LJ_TARGET_RISCV64
++  RISCVI_FCVT_L_S = 0xc0200053,
++  RISCVI_FCVT_LU_S = 0xc0300053,
++  RISCVI_FCVT_S_L = 0xd0200053,
++  RISCVI_FCVT_S_LU = 0xd0300053,
++#endif
++
++  /* --- RVD --- */
++  RISCVI_FLD = 0x00003007,
++  RISCVI_FSD = 0x00003027,
++
++  RISCVI_FMADD_D = 0x02000043,
++  RISCVI_FMSUB_D = 0x02000047,
++  RISCVI_FNMSUB_D = 0x0200004b,
++  RISCVI_FNMADD_D = 0x0200004f,
++
++  RISCVI_FADD_D = 0x02000053,
++  RISCVI_FSUB_D = 0x0a000053,
++  RISCVI_FMUL_D = 0x12000053,
++  RISCVI_FDIV_D = 0x1a000053,
++  RISCVI_FSQRT_D = 0x5a000053,
++
++  RISCVI_FSGNJ_D = 0x22000053,
++  RISCVI_FSGNJN_D = 0x22001053,
++  RISCVI_FSGNJX_D = 0x22002053,
++
++  RISCVI_FMIN_D = 0x2a000053,
++  RISCVI_FMAX_D = 0x2a001053,
++
++  RISCVI_FCVT_S_D = 0x40100053,
++  RISCVI_FCVT_D_S = 0x42000053,
++
++  RISCVI_FEQ_D = 0xa2002053,
++  RISCVI_FLT_D = 0xa2001053,
++  RISCVI_FLE_D = 0xa2000053,
++
++  RISCVI_FCLASS_D = 0xe2001053,
++
++  RISCVI_FCVT_W_D = 0xc2000053,
++  RISCVI_FCVT_WU_D = 0xc2100053,
++  RISCVI_FCVT_D_W = 0xd2000053,
++  RISCVI_FCVT_D_WU = 0xd2100053,
++
++  RISCVI_FMV_D = 0x22000053,
++  RISCVI_FNEG_D = 0x22001053,
++  RISCVI_FABS_D = 0x22002053,
++#if LJ_TARGET_RISCV64
++  RISCVI_FCVT_L_D = 0xc2200053,
++  RISCVI_FCVT_LU_D = 0xc2300053,
++  RISCVI_FMV_X_D = 0xe2000053,
++  RISCVI_FCVT_D_L = 0xd2200053,
++  RISCVI_FCVT_D_LU = 0xd2300053,
++  RISCVI_FMV_D_X = 0xf2000053,
++#endif
++
++  /* --- Zifencei --- */
++  RISCVI_FENCE = 0x0000000f,
++  RISCVI_FENCE_I = 0x0000100f,
++
++  /* --- Zicsr --- */
++  RISCVI_CSRRW = 0x00001073,
++  RISCVI_CSRRS = 0x00002073,
++  RISCVI_CSRRC = 0x00003073,
++  RISCVI_CSRRWI = 0x00005073,
++  RISCVI_CSRRSI = 0x00006073,
++  RISCVI_CSRRCI = 0x00007073,
++
++  /* --- RVB --- */
++  /* Zba */
++  RISCVI_SH1ADD = 0x20002033,
++  RISCVI_SH2ADD = 0x20004033,
++  RISCVI_SH3ADD = 0x20006033,
++#if LJ_TARGET_RISCV64
++  RISCVI_ADD_UW = 0x0800003b,
++
++  RISCVI_SH1ADD_UW = 0x2000203b,
++  RISCVI_SH2ADD_UW = 0x2000403b,
++  RISCVI_SH3ADD_UW = 0x2000603b,
++
++  RISCVI_SLLI_UW = 0x0800101b,
++
++  RISCVI_ZEXT_W = 0x0800003b,
++#endif
++  /* Zbb */
++  RISCVI_ANDN = 0x40007033,
++  RISCVI_ORN = 0x40006033,
++  RISCVI_XNOR = 0x40004033,
++
++  RISCVI_CLZ = 0x60001013,
++  RISCVI_CTZ = 0x60101013,
++
++  RISCVI_CPOP = 0x60201013,
++
++  RISCVI_MAX = 0x0a006033,
++  RISCVI_MAXU = 0x0a007033,
++  RISCVI_MIN = 0x0a004033,
++  RISCVI_MINU = 0x0a005033,
++
++  RISCVI_SEXT_B = 0x60401013,
++  RISCVI_SEXT_H = 0x60501013,
++#if LJ_TARGET_RISCV32
++  RISCVI_ZEXT_H = 0x08004033,
++#elif LJ_TARGET_RISCV64
++  RISCVI_ZEXT_H = 0x0800403b,
++#endif
++
++  RISCVI_ROL = 0x60001033,
++  RISCVI_ROR = 0x60005033,
++  RISCVI_RORI = 0x60005013,
++
++  RISCVI_ORC_B = 0x28705013,
++
++#if LJ_TARGET_RISCV32
++  RISCVI_REV8 = 0x69805013,
++#elif LJ_TARGET_RISCV64
++  RISCVI_REV8 = 0x6b805013,
++
++  RISCVI_CLZW = 0x6000101b,
++  RISCVI_CTZW = 0x6010101b,
++
++  RISCVI_CPOPW = 0x6020101b,
++
++  RISCVI_ROLW = 0x6000103b,
++  RISCVI_RORIW = 0x6000501b,
++  RISCVI_RORW = 0x6000503b,
++#endif
++  /* NYI: Zbc, Zbs */
++
++  /* TBD: RVV?, RVP?, RVJ? */
++
++  /* --- XThead* --- */
++  /* XTHeadBa */
++  RISCVI_TH_ADDSL = 0x0000100b,
++
++  /* XTHeadBb */
++  RISCVI_TH_SRRI = 0x1000100b,
++#if LJ_TARGET_RISCV64
++  RISCVI_TH_SRRIW = 0x1400100b,
++#endif
++  RISCVI_TH_EXT = 0x0000200b,
++  RISCVI_TH_EXTU = 0x0000300b,
++  RISCVI_TH_FF0 = 0x8400100b,
++  RISCVI_TH_FF1 = 0x8600100b,
++  RISCVI_TH_REV = 0x8200100b,
++#if LJ_TARGET_RISCV64
++  RISCVI_TH_REVW = 0x9000100b,
++#endif
++  RISCVI_TH_TSTNBZ = 0x8000100b,
++
++  /* XTHeadBs */
++  RISCVI_TH_TST = 0x8800100b,
++
++  /* XTHeadCondMov */
++  RISCVI_TH_MVEQZ = 0x4000100b,
++  RISCVI_TH_MVNEZ = 0x4200100b,
++
++  /* XTHeadMac */
++  RISCVI_TH_MULA = 0x2000100b,
++  RISCVI_TH_MULAH = 0x2800100b,
++#if LJ_TARGET_RISCV64
++  RISCVI_TH_MULAW = 0x2400100b,
++#endif
++  RISCVI_TH_MULS = 0x2200100b,
++  RISCVI_TH_MULSH = 0x2a00100b,
++  RISCVI_TH_MULSW = 0x2600100b,
++
++  /* NYI: XTHeadMemIdx, XTHeadFMemIdx, XTHeadMemPair */
++} RISCVIns;
++
++typedef enum RISCVRM {
++  RISCVRM_RNE = 0,
++  RISCVRM_RTZ = 1,
++  RISCVRM_RDN = 2,
++  RISCVRM_RUP = 3,
++  RISCVRM_RMM = 4,
++  RISCVRM_DYN = 7,
++} RISCVRM;
++
++#endif
+diff --git a/bundle/LuaJIT-2.1-20220411/src/vm_riscv64.dasc b/bundle/LuaJIT-2.1-20220411/src/vm_riscv64.dasc
+new file mode 100644
+index 0000000..c329123
+--- /dev/null
++++ b/bundle/LuaJIT-2.1-20220411/src/vm_riscv64.dasc
+@@ -0,0 +1,4677 @@
++|// Low-level VM code for RISC-V 64 CPUs.
++|// Bytecode interpreter, fast functions and helper functions.
++|// Copyright (C) 2005-2022 Mike Pall. See Copyright Notice in luajit.h
++|//
++|// Contributed by Raymond Wong from PLCT Lab, ISCAS.
++|// Sponsored by PLCT Lab, ISCAS.
++|
++|.arch riscv64
++|.section code_op, code_sub
++|
++|.actionlist build_actionlist
++|.globals GLOB_
++|.globalnames globnames
++|.externnames extnames
++|
++|// Note: The ragged indentation of the instructions is intentional.
++|//       The starting columns indicate data dependencies.
++|
++|//-----------------------------------------------------------------------
++|
++|// Fixed register assignments for the interpreter.
++|// Don't use: x0 = 0, x1 = ra, x2 = sp, x3 = gp, x4 = tp
++|
++|
++|// The following must be C callee-save (but BASE is often refetched).
++|.define BASE,		x18	// Base of current Lua stack frame.
++|.define KBASE,		x19	// Constants of current Lua function.
++|.define PC,		x20	// Next PC.
++|.define GLREG,		x21	// Global state.
++|.define DISPATCH,	x22	// Opcode dispatch table.
++|.define LREG,		x23	// Register holding lua_State (also in SAVE_L).
++|.define MULTRES,	x24	// Size of multi-result: (nresults+1)*8.
++|
++|// Constants for type-comparisons, stores and conversions. C callee-save.
++|.define TISNIL,	x8
++|.define TISNUM,	x25
++|.define TOBIT,		f27	// 2^52 + 2^51.
++|
++|// The following temporaries are not saved across C calls, except for RA.
++|.define RA,		x9	// Callee-save.
++|.define RB,		x14
++|.define RC,		x15
++|.define RD,		x16
++|.define INS,		x17
++|
++|.define TMP0,		x6
++|.define TMP1,		x7
++|.define TMP2,		x28
++|.define TMP3,		x29
++|.define TMP4,		x30
++|
++|// RISC-V lp64d calling convention.
++|.define CFUNCADDR,	x5
++|.define CARG1,		x10
++|.define CARG2,		x11
++|.define CARG3,		x12
++|.define CARG4,		x13
++|.define CARG5,		x14
++|.define CARG6,		x15
++|.define CARG7,		x16
++|.define CARG8,		x17
++|
++|.define CRET1,		x10
++|.define CRET2,		x11
++|
++|.define FARG1,		f10
++|.define FARG2,		f11
++|.define FARG3,		f12
++|.define FARG4,		f13
++|.define FARG5,		f14
++|.define FARG6,		f15
++|.define FARG7,		f16
++|.define FARG8,		f17
++|
++|.define FRET1,		f10
++|.define FRET2,		f11
++|
++|.define FTMP0,		f0
++|.define FTMP1,		f1
++|.define FTMP2,		f2
++|.define FTMP3,		f3
++|.define FTMP4,		f4
++|
++|// Stack layout while in interpreter. Must match with lj_frame.h.
++|// RISC-V 64 lp64d.
++|
++|.define CFRAME_SPACE,	256	// Delta for sp.
++|
++|//----- 16 byte aligned, <-- sp entering interpreter
++|.define SAVE_ERRF,	252	// 32 bit values.
++|.define SAVE_NRES,	248
++|.define SAVE_CFRAME,	240	// 64 bit values.
++|.define SAVE_L,	232
++|.define SAVE_PC,	224
++|//----- 16 byte aligned
++|// Padding		216
++|.define SAVE_GPR_,	112	// .. 112+13*8: 64 bit GPR saves.
++|.define SAVE_FPR_,	16	// .. 16+12*8: 64 bit FPR saves.
++|
++|
++|.define TMPD,		0
++|//----- 16 byte aligned
++|
++|.define TMPD_OFS,	0
++|
++|//-----------------------------------------------------------------------
++|
++|.macro saveregs
++|  addi sp, sp, -CFRAME_SPACE
++|  fsd f27, SAVE_FPR_+11*8(sp)
++|  fsd f26, SAVE_FPR_+10*8(sp)
++|  fsd f25, SAVE_FPR_+9*8(sp)
++|  fsd f24, SAVE_FPR_+8*8(sp)
++|  fsd f23, SAVE_FPR_+7*8(sp)
++|  fsd f22, SAVE_FPR_+6*8(sp)
++|  fsd f21, SAVE_FPR_+5*8(sp)
++|  fsd f20, SAVE_FPR_+4*8(sp)
++|  fsd f19, SAVE_FPR_+3*8(sp)
++|  fsd f18, SAVE_FPR_+2*8(sp)
++|  fsd f9,  SAVE_FPR_+1*8(sp)
++|  fsd f8,  SAVE_FPR_+0*8(sp)
++|  sd ra,  SAVE_GPR_+12*8(sp)
++|  sd x27, SAVE_GPR_+11*8(sp)
++|  sd x26, SAVE_GPR_+10*8(sp)
++|  sd x25, SAVE_GPR_+9*8(sp)
++|  sd x24, SAVE_GPR_+8*8(sp)
++|  sd x23, SAVE_GPR_+7*8(sp)
++|  sd x22, SAVE_GPR_+6*8(sp)
++|  sd x21, SAVE_GPR_+5*8(sp)
++|  sd x20, SAVE_GPR_+4*8(sp)
++|  sd x19, SAVE_GPR_+3*8(sp)
++|  sd x18, SAVE_GPR_+2*8(sp)
++|  sd x9,  SAVE_GPR_+1*8(sp)
++|  sd x8,  SAVE_GPR_+0*8(sp)
++|.endmacro
++|
++|.macro restoreregs_ret
++|  ld ra,  SAVE_GPR_+12*8(sp)
++|  ld x27, SAVE_GPR_+11*8(sp)
++|  ld x26, SAVE_GPR_+10*8(sp)
++|  ld x25, SAVE_GPR_+9*8(sp)
++|  ld x24, SAVE_GPR_+8*8(sp)
++|  ld x23, SAVE_GPR_+7*8(sp)
++|  ld x22, SAVE_GPR_+6*8(sp)
++|  ld x21, SAVE_GPR_+5*8(sp)
++|  ld x20, SAVE_GPR_+4*8(sp)
++|  ld x19, SAVE_GPR_+3*8(sp)
++|  ld x18, SAVE_GPR_+2*8(sp)
++|  ld x9,  SAVE_GPR_+1*8(sp)
++|  ld x8,  SAVE_GPR_+0*8(sp)
++|  fld f27, SAVE_FPR_+11*8(sp)
++|  fld f26, SAVE_FPR_+10*8(sp)
++|  fld f25, SAVE_FPR_+9*8(sp)
++|  fld f24, SAVE_FPR_+8*8(sp)
++|  fld f23, SAVE_FPR_+7*8(sp)
++|  fld f22, SAVE_FPR_+6*8(sp)
++|  fld f21, SAVE_FPR_+5*8(sp)
++|  fld f20, SAVE_FPR_+4*8(sp)
++|  fld f19, SAVE_FPR_+3*8(sp)
++|  fld f18, SAVE_FPR_+2*8(sp)
++|  fld f9,  SAVE_FPR_+1*8(sp)
++|  fld f8,  SAVE_FPR_+0*8(sp)
++|  addi sp, sp, CFRAME_SPACE
++|  ret
++|.endmacro
++|
++|//-----------------------------------------------------------------------
++|
++|// Pseudo-instruction macros
++|// Be cautious with local label 9 since we use them here!
++|.macro bxeq, a, b, tgt
++|  bne a, b, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxne, a, b, tgt
++|  beq a, b, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxlt, a, b, tgt
++|  bge a, b, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxge, a, b, tgt
++|  blt a, b, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxgt, a, b, tgt
++|  bge b, a, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxle, a, b, tgt
++|  blt b, a, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxltu, a, b, tgt
++|  bgeu a, b, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxgeu, a, b, tgt
++|  bltu a, b, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxgtu, a, b, tgt
++|  bgeu b, a, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxleu, a, b, tgt
++|  bltu b, a, >9
++|  j tgt
++|9:
++|.endmacro
++|
++|.macro bxeqz, a, tgt
++|  bxeq a, x0, tgt
++|.endmacro
++|
++|.macro bxnez, a, tgt
++|  bxne a, x0, tgt
++|.endmacro
++|
++|.macro bxlez, a, tgt
++|  bxge x0, a, tgt
++|.endmacro
++|
++|.macro bxgez, a, tgt
++|  bxge a, x0, tgt
++|.endmacro
++|
++|.macro bxltz, a, tgt
++|  bxlt a, x0, tgt
++|.endmacro
++|
++|.macro bxgtz, a, tgt
++|  bxlt x0, a, tgt
++|.endmacro
++|
++|.macro lxi, a, b
++|  lui a, (b)&0xfffff
++|  srai a, a, 12
++|.endmacro
++|
++|.macro lzi, a, b
++|  lui a, (b)&0xfffff
++|  srli a, a, 12
++|.endmacro
++|
++|.macro addxi, a, b, c
++|  lui x31, (c)&0xfffff
++|  srai x31, x31, 12
++|  add a, x31, b
++|.endmacro
++|
++|.macro sext.b, a, b
++|  slli a, b, 56
++|  srai a, a, 56
++|.endmacro
++|
++|.macro sext.h, a, b
++|  slli a, b, 48
++|  srai a, a, 48
++|.endmacro
++|
++|.macro zext.h, a, b
++|  slli a, b, 48
++|  srli a, a, 48
++|.endmacro
++|
++|.macro zext.w, a, b
++|  slli a, b, 32
++|  srli a, a, 32
++|.endmacro
++|
++|.macro bfextri, a, b, c, d
++|  slli a, b, (63-c)
++|  srli a, a, (d+63-c)
++|.endmacro
++|
++|//-----------------------------------------------------------------------
++|
++|// Type definitions. Some of these are only used for documentation.
++|.type L,		lua_State,	LREG
++|.type GL,		global_State,	GLREG
++|.type TVALUE,		TValue
++|.type GCOBJ,		GCobj
++|.type STR,		GCstr
++|.type TAB,		GCtab
++|.type LFUNC,		GCfuncL
++|.type CFUNC,		GCfuncC
++|.type PROTO,		GCproto
++|.type UPVAL,		GCupval
++|.type NODE,		Node
++|.type NARGS8,		int
++|.type TRACE,		GCtrace
++|.type SBUF,		SBuf
++|
++|//-----------------------------------------------------------------------
++|
++|// Trap for not-yet-implemented parts.
++|.macro NYI; .long 0x00100073; .endmacro
++|
++|//-----------------------------------------------------------------------
++|
++|// Access to frame relative to BASE.
++|.define FRAME_PC,	-8
++|.define FRAME_FUNC,	-16
++|
++|//-----------------------------------------------------------------------
++|
++|// Endian-specific defines. RISC-V only has little endian ABI for now.
++|.define OFS_RD,	2
++|.define OFS_RA,	1
++|.define OFS_OP,	0
++|
++|// Instruction decode.
++|.macro decode_OP1, dst, ins; andi dst, ins, 0xff; .endmacro
++|.macro decode_BC4b, dst; slliw dst, dst, 2; .endmacro
++|.macro decode_BC8b, dst; slliw dst, dst, 3; .endmacro
++|.macro decode_RX8b, dst; andi dst, dst, 0x7f8; .endmacro
++|
++|.macro decode_OP8a, dst, ins; decode_OP1 dst, ins; .endmacro
++|.macro decode_OP8b, dst; decode_BC8b dst; .endmacro
++|.macro decode_RA8a, dst, ins; srliw dst, ins, 5; .endmacro
++|.macro decode_RA8b, dst; decode_RX8b dst; .endmacro
++|.macro decode_RB8a, dst, ins; srliw dst, ins, 21; .endmacro
++|.macro decode_RB8b, dst; decode_RX8b dst; .endmacro
++|.macro decode_RC8a, dst, ins; srliw dst, ins, 13; .endmacro
++|.macro decode_RC8b, dst; decode_RX8b dst; .endmacro
++|.macro decode_RD8a, dst, ins; srliw dst, ins, 16; .endmacro
++|.macro decode_RD4b, dst; decode_BC4b dst; .endmacro
++|.macro decode_RD8b, dst; decode_BC8b dst; .endmacro
++|.macro decode_RDtoRC8, dst, src; andi dst, src, 0x7f8; .endmacro
++|
++|.macro decode_OP8, dst, ins; decode_OP1 dst, ins; decode_BC8b dst; .endmacro
++|.macro decode_RA8, dst, ins; decode_RA8a dst, ins; decode_RA8b dst; .endmacro
++|.macro decode_RB8, dst, ins; decode_RB8a dst, ins; decode_RB8b dst; .endmacro
++|.macro decode_RC8, dst, ins; decode_RC8a dst, ins; decode_RC8b dst; .endmacro
++|.macro decode_RD8, dst, ins; decode_RD8a dst, ins; decode_RD8b dst; .endmacro
++|
++|// Instruction fetch.
++|.macro ins_NEXT1
++|  lw INS, 0(PC)
++|   addi PC, PC, 4
++|.endmacro
++|// Instruction decode+dispatch.
++|.macro ins_NEXT2
++|  decode_OP8 TMP1, INS
++|  add TMP0, DISPATCH, TMP1
++|   decode_RD8a RD, INS
++|  ld TMP4, 0(TMP0)
++|   decode_RA8a RA, INS
++|   decode_RD8b RD
++|   decode_RA8b RA
++|  jr TMP4
++|.endmacro
++|.macro ins_NEXT
++|  ins_NEXT1
++|  ins_NEXT2
++|.endmacro
++|
++|// Instruction footer.
++|.if 1
++|  // Replicated dispatch. Less unpredictable branches, but higher I-Cache use.
++|  .define ins_next, ins_NEXT
++|  .define ins_next_, ins_NEXT
++|  .define ins_next1, ins_NEXT1
++|  .define ins_next2, ins_NEXT2
++|.else
++|  // Common dispatch. Lower I-Cache use, only one (very) unpredictable branch.
++|  // Affects only certain kinds of benchmarks (and only with -j off).
++|  .macro ins_next
++|    j ->ins_next
++|  .endmacro
++|  .macro ins_next1
++|  .endmacro
++|  .macro ins_next2
++|    j ->ins_next
++|  .endmacro
++|  .macro ins_next_
++|  ->ins_next:
++|    ins_NEXT
++|  .endmacro
++|.endif
++|
++|// Call decode and dispatch.
++|.macro ins_callt
++|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
++|  ld PC, LFUNC:RB->pc
++|  lw INS, 0(PC)
++|   addi PC, PC, 4
++|  decode_OP8 TMP1, INS
++|   decode_RA8 RA, INS
++|  add TMP0, DISPATCH, TMP1
++|  ld TMP0, 0(TMP0)
++|   add RA, RA, BASE
++|  jr TMP0
++|.endmacro
++|
++|.macro ins_call
++|  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, PC = caller PC
++|  sd PC, FRAME_PC(BASE)
++|  ins_callt
++|.endmacro
++|
++|//-----------------------------------------------------------------------
++|
++|.macro branch_RD
++|  srliw TMP0, RD, 1
++|  lui TMP4, (-(BCBIAS_J*4 >> 12)) & 0xfffff
++|  addw TMP0, TMP0, TMP4
++|  add PC, PC, TMP0
++|.endmacro
++|
++|// Assumes J is relative to GL. Some J members might be out of range though.
++#define GG_G2GOT		(GG_OFS(got) - GG_OFS(g))
++#define GL_J(field)	(GG_G2J + (int)offsetof(jit_State, field))
++#define GL_GOT(name)	(GG_G2GOT + sizeof(void*)*LJ_GOT_##name)
++|
++#define PC2PROTO(field)  ((int)offsetof(GCproto, field)-(int)sizeof(GCproto))
++|
++|.macro load_got, func
++|  ld CFUNCADDR, GL_GOT(func)(GL)
++|.endmacro
++|// JAL should be enough for *most* internal jumps.
++|.macro call_intern, func; jalr CFUNCADDR; .endmacro
++|.macro call_extern; jalr CFUNCADDR; .endmacro
++|.macro jmp_extern; jr CFUNCADDR; .endmacro
++|
++|// Set current VM state. Uses TMP0.
++|.macro li_vmstate, st; li TMP0, ~LJ_VMST_..st; .endmacro
++|.macro st_vmstate; sw TMP0, GL->vmstate; .endmacro
++|
++|.macro hotcheck, delta, target
++|  srli TMP1, PC, 1
++|  andi TMP1, TMP1, 126
++|  add TMP1, TMP1, DISPATCH
++|  lhu TMP2, GG_DISP2HOT(TMP1)
++|  addiw TMP2, TMP2, -delta
++|  sh TMP2, GG_DISP2HOT(TMP1)
++|  bxltz TMP2, target
++|.endmacro
++|
++|.macro hotloop
++|  hotcheck HOTCOUNT_LOOP, ->vm_hotloop
++|.endmacro
++|
++|.macro hotcall
++|  hotcheck HOTCOUNT_CALL, ->vm_hotcall
++|.endmacro
++|
++|// Move table write barrier back. Overwrites mark and tmp.
++|.macro barrierback, tab, mark, tmp, target
++|  ld tmp, GL->gc.grayagain
++|  andi mark, mark, ~LJ_GC_BLACK & 255		// black2gray(tab)
++|  sd tab, GL->gc.grayagain
++|  sb mark, tab->marked
++|  sd tmp, tab->gclist
++|  j target
++|.endmacro
++|
++|// Clear type tag. Isolate lowest 64-17=47 bits of reg.
++|.macro cleartp, reg; slli reg, reg, 17; srli reg, reg, 17; .endmacro
++|.macro cleartp, dst, reg; slli dst, reg, 17; srli dst, dst, 17; .endmacro
++|
++|// Set type tag: Merge 17 type bits into bits [47, 63] of dst.
++|.macro settp, dst, tp;
++|  cleartp dst
++|  slli x31, tp, 47
++|  or dst, dst, x31
++|.endmacro
++|
++|// Extract (negative) type tag.
++|.macro gettp, dst, src; srai dst, src, 47; .endmacro
++|
++|// Macros to check the TValue type and extract the GCobj. Branch on failure.
++|.macro checktp, reg, tp, target
++|  gettp TMP4, reg
++|  addi TMP4, TMP4, tp
++|  cleartp reg
++|  bxnez TMP4, target
++|.endmacro
++|.macro checktp, dst, reg, tp, target
++|  gettp TMP4, reg
++|  addi TMP4, TMP4, tp
++|  cleartp dst, reg
++|  bxnez TMP4, target
++|.endmacro
++|.macro checkstr, reg, target; checktp reg, -LJ_TSTR, target; .endmacro
++|.macro checktab, reg, target; checktp reg, -LJ_TTAB, target; .endmacro
++|.macro checkfunc, reg, target; checktp reg, -LJ_TFUNC, target; .endmacro
++|.macro checkint, reg, target
++|  gettp TMP4, reg
++|  bxne TMP4, TISNUM, target
++|.endmacro
++|.macro checknum, reg, target
++|  gettp TMP4, reg
++|  sltiu TMP4, TMP4, LJ_TISNUM
++|  bxeqz TMP4, target
++|.endmacro
++|
++|.macro mov_false, reg
++|  li reg, 0x001
++|  slli reg, reg, 47
++|  not reg, reg
++|.endmacro
++|.macro mov_true, reg
++|  li reg, 0x001
++|  slli reg, reg, 48
++|  not reg, reg
++|.endmacro
++|
++|//-----------------------------------------------------------------------
++
++/* Generate subroutines used by opcodes and other parts of the VM. */
++/* The .code_sub section should be last to help static branch prediction. */
++static void build_subroutines(BuildCtx *ctx)
++{
++  |.code_sub
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Return handling ----------------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |->vm_returnp:
++  |  // See vm_return. Also: TMP2 = previous base.
++  |  andi TMP0, PC, FRAME_P
++  |
++  |  // Return from pcall or xpcall fast func.
++  |  mov_true TMP1
++  |  bxeqz TMP0, ->cont_dispatch
++  |  ld PC, FRAME_PC(TMP2)		// Fetch PC of previous frame.
++  |  mv BASE, TMP2			// Restore caller base.
++  |  // Prepending may overwrite the pcall frame, so do it at the end.
++  |  sd TMP1, -8(RA)			// Prepend true to results.
++  |  addi RA, RA, -8
++  |
++  |->vm_returnc:
++  |  addiw RD, RD, 8			// RD = (nresults+1)*8.
++  |  andi TMP0, PC, FRAME_TYPE
++  |  li CRET1, LUA_YIELD
++  |  bxeqz RD, ->vm_unwind_c_eh
++  |  mv MULTRES, RD
++  |  bxeqz TMP0, ->BC_RET_Z		// Handle regular return to Lua.
++  |
++  |->vm_return:
++  |  // BASE = base, RA = resultptr, RD/MULTRES = (nresults+1)*8, PC = return
++  |  // TMP0 = PC & FRAME_TYPE
++  |  andi TMP2, PC, ~FRAME_TYPEP
++  |  xori TMP0, TMP0, FRAME_C
++  |  sub TMP2, BASE, TMP2		// TMP2 = previous base.
++  |  bxnez TMP0, ->vm_returnp
++  |
++  |  addiw TMP1, RD, -8
++  |  sd TMP2, L->base
++  |  li_vmstate C
++  |  lw TMP2, SAVE_NRES(sp)
++  |  addi BASE, BASE, -16
++  |  st_vmstate
++  |  slliw TMP2, TMP2, 3
++  |  beqz TMP1, >2
++  |1:
++  |  addiw TMP1, TMP1, -8
++  |  ld CRET1, 0(RA)
++  |  addi RA, RA, 8
++  |  sd CRET1, 0(BASE)
++  |  addi BASE, BASE, 8
++  |  bnez TMP1, <1
++  |
++  |2:
++  |  bne TMP2, RD, >6
++  |3:
++  |  sd BASE, L->top			// Store new top.
++  |
++  |->vm_leave_cp:
++  |  ld TMP0, SAVE_CFRAME(sp)		// Restore previous C frame.
++  |  mv CRET1, x0			// Ok return status for vm_pcall.
++  |  sd TMP0, L->cframe
++  |
++  |->vm_leave_unw:
++  |  restoreregs_ret
++  |
++  |6:
++  |  ld TMP1, L->maxstack
++  |  blt TMP2, RD, >7
++  |  // More results wanted. Check stack size and fill up results with nil.
++  |  bge BASE, TMP1, >9
++  |  sd TISNIL, 0(BASE)
++  |  addiw RD, RD, 8
++  |  addi BASE, BASE, 8
++  |  j <2
++  |
++  |7:  // Less results wanted.
++  |  subw TMP0, RD, TMP2
++  |  sub TMP0, BASE, TMP0		// Either keep top or shrink it.
++  |  beqz TMP2, >8
++  |  mv BASE, TMP0 	// LUA_MULTRET+1 case
++  |8:
++  |  j <3
++  |
++  |9:  // Corner case: need to grow stack for filling up results.
++  |  // This can happen if:
++  |  // - A C function grows the stack (a lot).
++  |  // - The GC shrinks the stack in between.
++  |  // - A return back from a lua_call() with (high) nresults adjustment.
++  |
++  |  sd BASE, L->top			// Save current top held in BASE (yes).
++  |   mv MULTRES, RD
++  |  srliw CARG2, TMP2, 3
++  |  mv CARG1, L
++  |  jal extern lj_state_growstack       // (lua_State *L, int n)
++  |    lw TMP2, SAVE_NRES(sp)
++  |  ld BASE, L->top			// Need the (realloced) L->top in BASE.
++  |   mv RD, MULTRES
++  |   slliw TMP2, TMP2, 3
++  |  j <2
++  |
++  |->vm_unwind_c:			// Unwind C stack, return from vm_pcall.
++  |  // (void *cframe, int errcode)
++  |  mv sp, CARG1
++  |  mv CRET1, CARG2
++  |->vm_unwind_c_eh:			// Landing pad for external unwinder.
++  |  ld L, SAVE_L(sp)
++  |   li TMP0, ~LJ_VMST_C
++  |  ld GL, L->glref
++  |  sw TMP0, GL->vmstate
++  |  j ->vm_leave_unw
++  |
++  |->vm_unwind_ff:			// Unwind C stack, return from ff pcall.
++  |  // (void *cframe)
++  |  andi sp, CARG1, CFRAME_RAWMASK
++  |->vm_unwind_ff_eh:			// Landing pad for external unwinder.
++  |  ld L, SAVE_L(sp)
++  |  lui TMP3, 0x43380		// TOBIT = Hiword of 2^52 + 2^51 (double).
++  |  li TISNIL, LJ_TNIL
++  |  li TISNUM, LJ_TISNUM
++  |  ld BASE, L->base
++  |  ld GL, L->glref			// Setup pointer to global state.
++  |  slli TMP3, TMP3, 32
++  |  mov_false TMP1
++  |    li_vmstate INTERP
++  |  ld PC, FRAME_PC(BASE)		// Fetch PC of previous frame.
++  |    fmv.d.x TOBIT, TMP3
++  |  addi RA, BASE, -8		// Results start at BASE-8.
++  |  addxi DISPATCH, GL, GG_G2DISP
++  |  sd TMP1, 0(RA)			// Prepend false to error message.
++  |    st_vmstate
++  |  li RD, 16			// 2 results: false + error message.
++  |  j ->vm_returnc
++  |
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Grow stack for calls -----------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |->vm_growstack_c:			// Grow stack for C function.
++  |  li CARG2, LUA_MINSTACK
++  |  j >2
++  |
++  |->vm_growstack_l:			// Grow stack for Lua function.
++  |  // BASE = new base, RA = BASE+framesize*8, RC = nargs*8, PC = first PC
++  |  add RC, BASE, RC
++  |   sub RA, RA, BASE
++  |  sd BASE, L->base
++  |   addi PC, PC, 4			// Must point after first instruction.
++  |  sd RC, L->top
++  |   srliw CARG2, RA, 3
++  |2:
++  |  // L->base = new base, L->top = top
++  |  sd PC, SAVE_PC(sp)
++  |  mv CARG1, L
++  |  jal extern lj_state_growstack	// (lua_State *L, int n)
++  |  ld BASE, L->base
++  |  ld RC, L->top
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)
++  |  sub RC, RC, BASE
++  |  cleartp LFUNC:RB
++  |  // BASE = new base, RB = LFUNC/CFUNC, RC = nargs*8, FRAME_PC(BASE) = PC
++  |  ins_callt				// Just retry the call.
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Entry points into the assembler VM ---------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |->vm_resume:				// Setup C frame and resume thread.
++  |  // (lua_State *L, TValue *base, int nres1 = 0, ptrdiff_t ef = 0)
++  |  saveregs
++  |  mv L, CARG1
++  |    ld GL, L->glref		// Setup pointer to global state.
++  |  mv BASE, CARG2
++  |    lbu TMP1, L->status
++  |   sd L, SAVE_L(sp)
++  |  li PC, FRAME_CP
++  |  addi TMP0, sp, CFRAME_RESUME
++  |    addxi DISPATCH, GL, GG_G2DISP
++  |   sw x0, SAVE_NRES(sp)
++  |   sw x0, SAVE_ERRF(sp)
++  |   sd CARG1, SAVE_PC(sp)			// Any value outside of bytecode is ok.
++  |   sd x0, SAVE_CFRAME(sp)
++  |   sd TMP0, L->cframe
++  |    beqz TMP1, >3
++  |
++  |  // Resume after yield (like a return).
++  |  sd L, GL->cur_L
++  |  mv RA, BASE
++  |   ld BASE, L->base
++  |   ld TMP1, L->top
++  |  ld PC, FRAME_PC(BASE)
++  |     lui TMP3, 0x43380		// TOBIT = Hiword of 2^52 + 2^51 (double).
++  |   sub RD, TMP1, BASE
++  |     slli TMP3, TMP3, 32
++  |    sb x0, L->status
++  |     fmv.d.x TOBIT, TMP3
++  |    li_vmstate INTERP
++  |   addi RD, RD, 8
++  |    st_vmstate
++  |   mv MULTRES, RD
++  |  andi TMP0, PC, FRAME_TYPE
++  |   li TISNIL, LJ_TNIL
++  |   li TISNUM, LJ_TISNUM
++  |  bxeqz TMP0, ->BC_RET_Z
++  |  j ->vm_return
++  |
++  |->vm_pcall:				// Setup protected C frame and enter VM.
++  |  // (lua_State *L, TValue *base, int nres1, ptrdiff_t ef)
++  |  saveregs
++  |  sw CARG4, SAVE_ERRF(sp)
++  |  li PC, FRAME_CP
++  |  j >1
++  |
++  |->vm_call:				// Setup C frame and enter VM.
++  |  // (lua_State *L, TValue *base, int nres1)
++  |  saveregs
++  |  li PC, FRAME_C
++  |
++  |1:  // Entry point for vm_pcall above (PC = ftype).
++  |  ld TMP1, L:CARG1->cframe
++  |    mv L, CARG1
++  |   sw CARG3, SAVE_NRES(sp)
++  |    ld GL, L->glref		// Setup pointer to global state.
++  |   sd CARG1, SAVE_L(sp)
++  |     mv BASE, CARG2
++  |    addxi DISPATCH, GL, GG_G2DISP
++  |   sd CARG1, SAVE_PC(sp)		// Any value outside of bytecode is ok.
++  |  sd TMP1, SAVE_CFRAME(sp)
++  |  sd sp, L->cframe			// Add our C frame to cframe chain.
++  |
++  |3:  // Entry point for vm_cpcall/vm_resume (BASE = base, PC = ftype).
++  |  sd L, GL->cur_L
++  |  ld TMP2, L->base			// TMP2 = old base (used in vmeta_call).
++  |     lui TMP3, 0x43380		// TOBIT = Hiword of 2^52 + 2^51 (double).
++  |   ld TMP1, L->top
++  |     slli TMP3, TMP3, 32
++  |  add PC, PC, BASE
++  |   sub NARGS8:RC, TMP1, BASE
++  |     li TISNUM, LJ_TISNUM
++  |  sub PC, PC, TMP2			// PC = frame delta + frame type
++  |     fmv.d.x TOBIT, TMP3
++  |    li_vmstate INTERP
++  |     li TISNIL, LJ_TNIL
++  |    st_vmstate
++  |
++  |->vm_call_dispatch:
++  |  // TMP2 = old base, BASE = new base, RC = nargs*8, PC = caller PC
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)
++  |  checkfunc LFUNC:RB, ->vmeta_call
++  |
++  |->vm_call_dispatch_f:
++  |  ins_call
++  |  // BASE = new base, RB = func, RC = nargs*8, PC = caller PC
++  |
++  |->vm_cpcall:				// Setup protected C frame, call C.
++  |  // (lua_State *L, lua_CFunction func, void *ud, lua_CPFunction cp)
++  |  saveregs
++  |  mv L, CARG1
++  |   ld TMP0, L:CARG1->stack
++  |  sd CARG1, SAVE_L(sp)
++  |   ld TMP1, L->top
++  |     ld GL, L->glref		// Setup pointer to global state.
++  |  sd CARG1, SAVE_PC(sp)		// Any value outside of bytecode is ok.
++  |   sub TMP0, TMP0, TMP1		// Compute -savestack(L, L->top).
++  |    ld TMP1, L->cframe
++  |     addxi DISPATCH, GL, GG_G2DISP
++  |   sw TMP0, SAVE_NRES(sp)		// Neg. delta means cframe w/o frame.
++  |  sw x0, SAVE_ERRF(sp)		// No error function.
++  |    sd TMP1, SAVE_CFRAME(sp)
++  |    sd sp, L->cframe			// Add our C frame to cframe chain.
++  |      sd L, GL->cur_L
++  |  jalr CARG4			// (lua_State *L, lua_CFunction func, void *ud)
++  |  mv BASE, CRET1
++  |  li PC, FRAME_CP
++  |  bnez CRET1, <3			// Else continue with the call.
++  |  j ->vm_leave_cp			// No base? Just remove C frame.
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Metamethod handling ------------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |//-- Continuation dispatch ----------------------------------------------
++  |
++  |->cont_dispatch:
++  |  // BASE = meta base, RA = resultptr, RD = (nresults+1)*8
++  |  ld TMP0, -32(BASE)		// Continuation.
++  |   mv RB, BASE
++  |   mv BASE, TMP2			// Restore caller BASE.
++  |    ld LFUNC:TMP1, FRAME_FUNC(TMP2)
++  |     ld PC, -24(RB)			// Restore PC from [cont|PC].
++  |.if FFI
++  |  sltiu TMP3, TMP0, 2
++  |.endif
++  |    cleartp LFUNC:TMP1
++  |   add TMP2, RA, RD
++  |  ld TMP1, LFUNC:TMP1->pc
++  |  sd TISNIL, -8(TMP2)               // Ensure one valid arg.
++  |.if FFI
++  |  bnez TMP3, >1
++  |.endif
++  |  // BASE = base, RA = resultptr, RB = meta base
++  |  ld KBASE, PC2PROTO(k)(TMP1)
++  |  jr TMP0				// Jump to continuation.
++  |
++  |.if FFI
++  |1:
++  |  addi TMP1, RB, -32
++  |  bxnez TMP0, ->cont_ffi_callback	// cont = 1: return from FFI callback.
++  |  // cont = 0: tailcall from C function.
++  |  sub RC, TMP1, BASE
++  |  j ->vm_call_tail
++  |.endif
++  |
++  |->cont_cat:				// RA = resultptr, RB = meta base
++  |  lw INS, -4(PC)
++  |   addi CARG2, RB, -32
++  |  ld TMP0, 0(RA)
++  |  decode_RB8 MULTRES, INS
++  |   decode_RA8 RA, INS
++  |  add TMP1, BASE, MULTRES
++  |   sd BASE, L->base
++  |   sub CARG3, CARG2, TMP1
++  |  sd TMP0, 0(CARG2)
++  |  bxne TMP1, CARG2, ->BC_CAT_Z
++  |  add RA, BASE, RA
++  |  sd TMP0, 0(RA)
++  |  j ->cont_nop
++  |
++  |//-- Table indexing metamethods -----------------------------------------
++  |
++  |->vmeta_tgets1:
++  |  addi CARG3, GL, offsetof(global_State, tmptv)
++  |  li TMP0, LJ_TSTR
++  |  settp STR:RC, TMP0
++  |  sd STR:RC, 0(CARG3)
++  |  j >1
++  |
++  |->vmeta_tgets:
++  |  addi CARG2, GL, offsetof(global_State, tmptv)
++  |   addi CARG3, GL, offsetof(global_State, tmptv2)
++  |  li TMP0, LJ_TTAB
++  |   li TMP1, LJ_TSTR
++  |  settp TAB:RB, TMP0
++  |   settp STR:RC, TMP1
++  |  sd TAB:RB, 0(CARG2)
++  |   sd STR:RC, 0(CARG3)
++  |  j >1
++  |
++  |->vmeta_tgetb:			// TMP0 = index
++  |  addi CARG3, GL, offsetof(global_State, tmptv)
++  |  settp TMP0, TISNUM
++  |  sd TMP0, 0(CARG3)
++  |
++  |->vmeta_tgetv:
++  |1:
++  |  sd BASE, L->base
++  |  mv CARG1, L
++  |  sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_tget		// (lua_State *L, TValue *o, TValue *k)
++  |  // Returns TValue * (finished) or NULL (metamethod).
++  |  beqz CRET1, >3
++  |  ld TMP0, 0(CRET1)
++  |  ins_next1
++  |  sd TMP0, 0(RA)
++  |  ins_next2
++  |
++  |3:  // Call __index metamethod.
++  |  // BASE = base, L->top = new base, stack = cont/func/t/k
++  |  addi TMP1, BASE, -FRAME_CONT
++  |  li NARGS8:RC, 16		// 2 args for func(t, k).
++  |  ld BASE, L->top
++  |  sd PC, -24(BASE)			// [cont|PC]
++  |   sub PC, BASE, TMP1
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
++  |  cleartp LFUNC:RB
++  |  j ->vm_call_dispatch_f
++  |
++  |->vmeta_tgetr:
++  |  jal extern lj_tab_getinth		// (GCtab *t, int32_t key)
++  |  // Returns cTValue * or NULL.
++  |  mv TMP1, TISNIL
++  |  bxeqz CRET1, ->BC_TGETR_Z
++  |  ld TMP1, 0(CRET1)
++  |  j ->BC_TGETR_Z
++  |
++  |//-----------------------------------------------------------------------
++  |
++  |->vmeta_tsets1:
++  |  addi, CARG3, GL, offsetof(global_State, tmptv)
++  |  li TMP0, LJ_TSTR
++  |  settp STR:RC, TMP0
++  |  sd STR:RC, 0(CARG3)
++  |  j >1
++  |
++  |->vmeta_tsets:
++  |  addi CARG2, GL, offsetof(global_State, tmptv)
++  |   addi CARG3, GL, offsetof(global_State, tmptv2)
++  |  li TMP0, LJ_TTAB
++  |   li TMP1, LJ_TSTR
++  |  settp TAB:RB, TMP0
++  |   settp STR:RC, TMP1
++  |  sd TAB:RB, 0(CARG2)
++  |   sd STR:RC, 0(CARG3)
++  |  j >1
++  |
++  |->vmeta_tsetb:			// TMP0 = index
++  |  addi CARG3, GL, offsetof(global_State, tmptv)
++  |  settp TMP0, TISNUM
++  |  sd TMP0, 0(CARG3)
++  |
++  |->vmeta_tsetv:
++  |1:
++  |  sd BASE, L->base
++  |  mv CARG1, L
++  |  sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_tset		// (lua_State *L, TValue *o, TValue *k)
++  |  // Returns TValue * (finished) or NULL (metamethod).
++  |  ld TMP2, 0(RA)
++  |  beqz CRET1, >3
++  |  ins_next1
++  |  // NOBARRIER: lj_meta_tset ensures the table is not black.
++  |  sd TMP2, 0(CRET1)
++  |  ins_next2
++  |
++  |3:  // Call __newindex metamethod.
++  |  // BASE = base, L->top = new base, stack = cont/func/t/k/(v)
++  |  addi TMP1, BASE, -FRAME_CONT
++  |  ld BASE, L->top
++  |  sd PC, -24(BASE)			// [cont|PC]
++  |   sub PC, BASE, TMP1
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
++  |  li NARGS8:RC, 24		// 3 args for func(t, k, v)
++  |  cleartp LFUNC:RB
++  |  sd TMP2, 16(BASE)		// Copy value to third argument.
++  |  j ->vm_call_dispatch_f
++  |
++  |->vmeta_tsetr:
++  |  sd BASE, L->base
++  |  mv CARG1, L
++  |  sd PC, SAVE_PC(sp)
++  |  jal extern lj_tab_setinth	// (lua_State *L, GCtab *t, int32_t key)
++  |  // Returns TValue *.
++  |  j ->BC_TSETR_Z
++  |
++  |//-- Comparison metamethods ---------------------------------------------
++  |
++  |->vmeta_comp:
++  |  // RA/RD point to o1/o2.
++  |  mv CARG2, RA
++  |  mv CARG3, RD
++  |  addi PC, PC, -4
++  |  sd BASE, L->base
++  |  mv CARG1, L
++  |  decode_OP1 CARG4, INS
++  |  sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_comp	// (lua_State *L, TValue *o1, *o2, int op)
++  |  // Returns 0/1 or TValue * (metamethod).
++  |3:
++  |  sltiu TMP1, CRET1, 2
++  |  bxeqz TMP1, ->vmeta_binop
++  |   negw TMP2, CRET1
++  |4:
++  |  lhu RD, OFS_RD(PC)
++  |   addi PC, PC, 4
++  |   lui TMP1, (-(BCBIAS_J*4 >> 12)) & 0xfffff
++  |  slliw RD, RD, 2
++  |  addw RD, RD, TMP1
++  |  and RD, RD, TMP2
++  |  add PC, PC, RD
++  |->cont_nop:
++  |  ins_next
++  |
++  |->cont_ra:				// RA = resultptr
++  |  lbu TMP1, -4+OFS_RA(PC)
++  |   ld TMP2, 0(RA)
++  |  slliw TMP1, TMP1, 3
++  |  add TMP1, BASE, TMP1
++  |   sd TMP2, 0(TMP1)
++  |  j ->cont_nop
++  |
++  |->cont_condt:			// RA = resultptr
++  |  ld TMP0, 0(RA)
++  |  gettp TMP0, TMP0
++  |  sltiu TMP1, TMP0, LJ_TISTRUECOND
++  |  negw TMP2, TMP1		// Branch if result is true.
++  |  j <4
++  |
++  |->cont_condf:			// RA = resultptr
++  |  ld TMP0, 0(RA)
++  |  gettp TMP0, TMP0
++  |  sltiu TMP1, TMP0, LJ_TISTRUECOND
++  |  addiw TMP2, TMP1, -1		// Branch if result is false.
++  |  j <4
++  |
++  |->vmeta_equal:
++  |  // CARG1/CARG2 point to o1/o2. TMP0 is set to 0/1.
++  |   cleartp LFUNC:CARG3, CARG2
++  |  cleartp LFUNC:CARG2, CARG1
++  |    mv CARG4, TMP0
++  |  addi PC, PC, -4
++  |   sd BASE, L->base
++  |   mv CARG1, L
++  |   sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_equal		// (lua_State *L, GCobj *o1, *o2, int ne)
++  |  // Returns 0/1 or TValue * (metamethod).
++  |  j <3
++  |
++  |->vmeta_equal_cd:
++  |.if FFI
++  |  addi PC, PC, -4
++  |  mv CARG1, L
++  |  mv CARG2, INS
++  |  sd BASE, L->base
++  |  sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_equal_cd		// (lua_State *L, BCIns op)
++  |  // Returns 0/1 or TValue * (metamethod).
++  |  j <3
++  |.endif
++  |
++  |->vmeta_istype:
++  |  addi PC, PC, -4
++  |   sd BASE, L->base
++  |   mv CARG1, L 
++  |   srliw CARG2, RA, 3
++  |   srliw CARG3, RD, 3
++  |  sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_istype		// (lua_State *L, BCReg ra, BCReg tp)
++  |  j ->cont_nop
++  |
++  |//-- Arithmetic metamethods ---------------------------------------------
++  |
++  |->vmeta_unm:
++  |  mv RC, RB
++  |
++  |->vmeta_arith:
++  |  mv CARG1, L
++  |   sd BASE, L->base
++  |  mv CARG2, RA
++  |   sd PC, SAVE_PC(sp)
++  |  mv CARG3, RB
++  |  mv CARG4, RC
++  |  decode_OP1 CARG5, INS
++  |  jal extern lj_meta_arith		// (lua_State *L, TValue *ra,*rb,*rc, BCReg op)
++  |  // Returns NULL (finished) or TValue * (metamethod).
++  |  bxeqz CRET1, ->cont_nop
++  |
++  |  // Call metamethod for binary op.
++  |->vmeta_binop:
++  |  // BASE = old base, CRET1 = new base, stack = cont/func/o1/o2
++  |  sub TMP1, CRET1, BASE
++  |   sd PC, -24(CRET1)			// [cont|PC]
++  |   mv TMP2, BASE
++  |  addi PC, TMP1, FRAME_CONT
++  |   mv BASE, CRET1
++  |  li NARGS8:RC, 16                  // 2 args for func(o1, o2).
++  |  j ->vm_call_dispatch
++  |
++  |->vmeta_len:
++  |  // CARG2 already set by BC_LEN.
++#if LJ_52
++  |  mv MULTRES, CARG1
++#endif
++  |   sd BASE, L->base
++  |   mv CARG1, L
++  |   sd PC, SAVE_PC(sp)
++  |  jal extern lj_meta_len		// (lua_State *L, TValue *o)
++  |  // Returns NULL (retry) or TValue * (metamethod base).
++#if LJ_52
++  |  bxnez CRET1, ->vmeta_binop		// Binop call for compatibility.
++  |  mv CARG1, MULTRES
++  |  j ->BC_LEN_Z
++#else
++  |  j ->vmeta_binop			// Binop call for compatibility.
++#endif
++  |
++  |//-- Call metamethod ----------------------------------------------------
++  |
++  |->vmeta_call:			// Resolve and call __call metamethod.
++  |  // TMP2 = old base, BASE = new base, RC = nargs*8
++  |  mv CARG1, L
++  |   sd TMP2, L->base			// This is the callers base!
++  |  addi CARG2, BASE, -16
++  |   sd PC, SAVE_PC(sp)
++  |  add CARG3, BASE, RC
++  |   mv MULTRES, NARGS8:RC
++  |  jal extern lj_meta_call		// (lua_State *L, TValue *func, TValue *top)
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)	// Guaranteed to be a function here.
++  |   addi NARGS8:RC, MULTRES, 8	// Got one more argument now.
++  |  cleartp LFUNC:RB
++  |  ins_call
++  |
++  |->vmeta_callt:			// Resolve __call for BC_CALLT.
++  |  // BASE = old base, RA = new base, RC = nargs*8
++  |  mv CARG1, L
++  |   sd BASE, L->base
++  |  addi CARG2, RA, -16
++  |   sd PC, SAVE_PC(sp)
++  |  add CARG3, RA, RC
++  |   mv MULTRES, NARGS8:RC
++  |  jal extern lj_meta_call		// (lua_State *L, TValue *func, TValue *top)
++  |   ld RB, FRAME_FUNC(RA)		// Guaranteed to be a function here.
++  |  ld TMP1, FRAME_PC(BASE)
++  |  addi NARGS8:RC, MULTRES, 8	// Got one more argument now.
++  |  cleartp LFUNC:CARG3, RB
++  |  j ->BC_CALLT_Z
++  |
++  |//-- Argument coercion for 'for' statement ------------------------------
++  |
++  |->vmeta_for:
++  |  mv CARG1, L
++  |   sd BASE, L->base
++  |  mv CARG2, RA
++  |   sd PC, SAVE_PC(sp)
++  |  mv MULTRES, INS
++  |  jal extern lj_meta_for	// (lua_State *L, TValue *base)
++  |.if JIT
++  |  decode_OP1 TMP0, MULTRES
++  |  li TMP1, BC_JFORI
++  |.endif
++  |  decode_RA8 RA, MULTRES
++  |   decode_RD8 RD, MULTRES
++  |.if JIT
++  |  bxeq TMP0, TMP1, =>BC_JFORI
++  |.endif
++  |  j =>BC_FORI
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Fast functions -----------------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |.macro .ffunc, name
++  |->ff_ .. name:
++  |.endmacro
++  |
++  |.macro .ffunc_1, name
++  |->ff_ .. name:
++  |  ld CARG1, 0(BASE)
++  |  bxeqz NARGS8:RC, ->fff_fallback
++  |.endmacro
++  |
++  |.macro .ffunc_2, name
++  |->ff_ .. name:
++  |  sltiu TMP0, NARGS8:RC, 16
++  |  ld CARG1, 0(BASE)
++  |  ld CARG2, 8(BASE)
++  |  bxnez TMP0, ->fff_fallback
++  |.endmacro
++  |
++  |.macro .ffunc_n, name
++  |->ff_ .. name:
++  |  ld CARG1, 0(BASE)
++  |  fld FARG1, 0(BASE)
++  |  bxeqz NARGS8:RC, ->fff_fallback
++  |  checknum CARG1, ->fff_fallback
++  |.endmacro
++  |
++  |.macro .ffunc_nn, name
++  |->ff_ .. name:
++  |  ld CARG1, 0(BASE)
++  |    sltiu TMP0, NARGS8:RC, 16
++  |   ld CARG2, 8(BASE)
++  |  bxnez TMP0, ->fff_fallback
++  |  gettp TMP1, CARG1
++  |   gettp TMP2, CARG2
++  |  sltiu TMP1, TMP1, LJ_TISNUM
++  |   sltiu TMP2, TMP2, LJ_TISNUM
++  |  fld FARG1, 0(BASE)
++  |  and TMP1, TMP1, TMP2
++  |   fld FARG2, 8(BASE)
++  |  bxeqz TMP1, ->fff_fallback
++  |.endmacro
++  |
++  |// Inlined GC threshold check.
++  |.macro ffgccheck
++  |   ld TMP0, GL->gc.total
++  |   ld TMP1, GL->gc.threshold
++  |  bltu TMP0, TMP1, >1
++  |  jal ->fff_gcstep
++  |1:
++  |.endmacro
++  |
++  |//-- Base library: checks -----------------------------------------------
++  |.ffunc_1 assert
++  |  gettp TMP1, CARG1
++  |  sltiu TMP1, TMP1, LJ_TISTRUECOND
++  |  addi RA, BASE, -16
++  |  bxeqz TMP1, ->fff_fallback
++  |  ld PC, FRAME_PC(BASE)
++  |  addiw RD, NARGS8:RC, 8		// Compute (nresults+1)*8.
++  |  addi TMP1, BASE, 8
++  |  add TMP2, RA, RD
++  |  sd CARG1, 0(RA)
++  |  bne BASE, TMP2, >1
++  |  j ->fff_res		// Done if exactly 1 argument.
++  |1:
++  |  ld TMP0, 0(TMP1)
++  |  sd TMP0, -16(TMP1)
++  |  mv TMP3, TMP1
++  |  addi TMP1, TMP1, 8
++  |  bne TMP3, TMP2, <1
++  |  j ->fff_res
++  |
++  |.ffunc_1 type
++  |  gettp TMP0, CARG1
++  |  sltu TMP2, TISNUM, TMP0
++  |  not TMP3, TMP0
++  |  bnez TMP2, >1
++  |  li TMP3, ~LJ_TISNUM
++  |1:
++  |  slli TMP3, TMP3, 3
++  |  add TMP3, CFUNC:RB, TMP3
++  |  ld CARG1, CFUNC:TMP3->upvalue
++  |  j ->fff_restv
++  |
++  |//-- Base library: getters and setters ---------------------------------
++  |
++  |.ffunc_1 getmetatable
++  |  gettp TMP2, CARG1
++  |  addi TMP0, TMP2, -LJ_TTAB
++  |  addi TMP1, TMP2, -LJ_TUDATA
++  |  snez TMP0, TMP0
++  |  neg TMP0, TMP0
++  |  and TMP0, TMP0, TMP1
++  |  cleartp TAB:CARG1
++  |  bnez TMP0, >6
++  |1:  // Field metatable must be at same offset for GCtab and GCudata!
++  |  ld TAB:RB, TAB:CARG1->metatable
++  |2:
++  |   ld STR:RC, GL->gcroot[GCROOT_MMNAME+MM_metatable]
++  |  li CARG1, LJ_TNIL
++  |  bxeqz TAB:RB, ->fff_restv
++  |  lw TMP0, TAB:RB->hmask
++  |   lw TMP1, STR:RC->sid
++  |    ld NODE:TMP2, TAB:RB->node
++  |  and TMP1, TMP1, TMP0		// idx = str->sid & tab->hmask
++  |  slli TMP0, TMP1, 5
++  |  slli TMP1, TMP1, 3
++  |  sub TMP1, TMP0, TMP1
++  |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
++  |  li CARG4, LJ_TSTR
++  |  settp STR:RC, CARG4		// Tagged key to look for.
++  |3:  // Rearranged logic, because we expect _not_ to find the key.
++  |  ld TMP0, NODE:TMP2->key
++  |   ld CARG1, NODE:TMP2->val
++  |    ld NODE:TMP2, NODE:TMP2->next
++  |  li TMP3, LJ_TTAB
++  |  beq RC, TMP0, >5
++  |  bnez NODE:TMP2, <3
++  |4:
++  |  mv CARG1, RB
++  |  settp CARG1, TMP3
++  |  j ->fff_restv			// Not found, keep default result.
++  |5:
++  |  bxne CARG1, TISNIL, ->fff_restv
++  |  j <4				// Ditto for nil value.
++  |
++  |6:
++  |  sltiu TMP3, TMP2, LJ_TISNUM
++  |  neg TMP3, TMP3
++  |  and TMP0, TISNUM, TMP3
++  |  not TMP3, TMP3
++  |  and TMP2, TMP2, TMP3
++  |  or TMP2, TMP2, TMP0
++  |  slli TMP2, TMP2, 3
++  |   sub TMP0, GL, TMP2
++  |   ld TAB:RB, (offsetof(global_State, gcroot[GCROOT_BASEMT])-8)(TMP0)
++  |  j <2
++  |
++  |.ffunc_2 setmetatable
++  |  // Fast path: no mt for table yet and not clearing the mt.
++  |  checktp TMP1, CARG1, -LJ_TTAB, ->fff_fallback
++  |  gettp TMP3, CARG2
++  |   ld TAB:TMP0, TAB:TMP1->metatable
++  |   lbu TMP2, TAB:TMP1->marked
++  |  addi TMP3, TMP3, -LJ_TTAB
++  |   cleartp TAB:CARG2
++  |  or TMP3, TMP3, TAB:TMP0
++  |  bxnez TMP3, ->fff_fallback
++  |  andi TMP3, TMP2, LJ_GC_BLACK		// isblack(table)
++  |  sd TAB:CARG2, TAB:TMP1->metatable
++  |  bxeqz TMP3, ->fff_restv
++  |  barrierback TAB:TMP1, TMP2, TMP0, ->fff_restv
++  |
++  |.ffunc rawget
++  |  ld CARG2, 0(BASE)
++  |  sltiu TMP0, NARGS8:RC, 16
++  |  gettp TMP1, CARG2
++  |   cleartp CARG2
++  |  addi TMP1, TMP1, -LJ_TTAB
++  |  or TMP0, TMP0, TMP1
++  |  addi CARG3, BASE, 8
++  |  bxnez TMP0, ->fff_fallback
++  |  mv CARG1, L
++  |  jal extern lj_tab_get	// (lua_State *L, GCtab *t, cTValue *key)
++  |  // Returns cTValue *.
++  |  ld CARG1, 0(CRET1)
++  |  j ->fff_restv
++  |
++  |//-- Base library: conversions ------------------------------------------
++  |
++  |.ffunc tonumber
++  |  // Only handles the number case inline (without a base argument).
++  |  ld CARG1, 0(BASE)
++  |  xori TMP0, NARGS8:RC, 8		// Exactly one number argument.
++  |  gettp TMP1, CARG1
++  |  sltu TMP1, TISNUM, TMP1
++  |  or TMP0, TMP0, TMP1
++  |  bxnez TMP0, ->fff_fallback		// No args or CARG1 is not number
++  |  j ->fff_restv
++  |
++  |.ffunc_1 tostring
++  |  // Only handles the string or number case inline.
++  |  gettp TMP0, CARG1
++  |  addi TMP1, TMP0, -LJ_TSTR
++  |  // A __tostring method in the string base metatable is ignored.
++  |  bxeqz TMP1, ->fff_restv	// String key?
++  |  // Handle numbers inline, unless a number base metatable is present.
++  |   ld TMP1, GL->gcroot[GCROOT_BASEMT_NUM]
++  |  sltu TMP0, TISNUM, TMP0
++  |  sd BASE, L->base			// Add frame since C call can throw.
++  |  or TMP0, TMP0, TMP1
++  |  bxnez TMP0, ->fff_fallback
++  |  sd PC, SAVE_PC(sp)		// Redundant (but a defined value).
++  |  ffgccheck
++  |  mv CARG1, L
++  |  mv CARG2, BASE
++  |  jal extern lj_strfmt_number	// (lua_State *L, cTValue *o)
++  |  // Returns GCstr *.
++  |  li TMP1, LJ_TSTR
++  |//  ld BASE, L->base
++  |  settp CARG1, TMP1
++  |  j ->fff_restv
++  |
++  |//-- Base library: iterators -------------------------------------------
++  |
++  |.ffunc_1 next
++  |  checktp CARG1, -LJ_TTAB, ->fff_fallback
++  |  add TMP0, BASE, NARGS8:RC
++  |  ld PC, FRAME_PC(BASE)
++  |  sd TISNIL, 0(TMP0)		// Set missing 2nd arg to nil.
++  |  addi CARG2, BASE, 8
++  |  addi CARG3, BASE, -16
++  |  jal extern lj_tab_next		// (GCtab *t, cTValue *key, TValue *o)
++  |  // Returns 1=found, 0=end, -1=error.
++  |//  addi RA, BASE, -16
++  |  li RD, (2+1)*8
++  |  bxgtz CRET1, ->fff_res		// Found key/value.
++  |  mv TMP1, CRET1
++  |  mv CARG1, TISNIL
++  |  bxeqz TMP1, ->fff_restv		// End of traversal: return nil.
++  |   ld CFUNC:RB, FRAME_FUNC(BASE)
++  |  li RC, 2*8
++  |   cleartp CFUNC:RB
++  |  j ->fff_fallback			// Invalid key.
++  |
++  |.ffunc_1 pairs
++  |  checktp TAB:TMP1, CARG1, -LJ_TTAB, ->fff_fallback
++  |  ld PC, FRAME_PC(BASE)
++#if LJ_52
++  |  ld TAB:TMP2, TAB:TMP1->metatable
++  |  ld TMP0, CFUNC:RB->upvalue[0]
++  |  addi RA, BASE, -16
++  |  bxnez TAB:TMP2, ->fff_fallback
++#else
++  |  ld TMP0, CFUNC:RB->upvalue[0]
++  |  addi RA, BASE, -16
++#endif
++  |  sd TISNIL, 0(BASE)
++  |   sd CARG1, -8(BASE)
++  |    sd TMP0, 0(RA)
++  |  li RD, (3+1)*8
++  |  j ->fff_res
++  |
++  |.ffunc_2 ipairs_aux
++  |  checktab CARG1, ->fff_fallback
++  |   checkint CARG2, ->fff_fallback
++  |  lw TMP0, TAB:CARG1->asize
++  |   ld TMP1, TAB:CARG1->array
++  |    ld PC, FRAME_PC(BASE)
++  |  sext.w TMP2, CARG2
++  |  addiw TMP2, TMP2, 1
++  |  sltu TMP3, TMP2, TMP0
++  |    addi RA, BASE, -16
++  |   zext.w TMP0, TMP2
++  |   settp TMP0, TISNUM
++  |  sd TMP0, 0(RA)
++  |  beqz TMP3, >2			// Not in array part?
++  |  slli TMP3, TMP2, 3
++  |  add TMP3, TMP1, TMP3
++  |  ld TMP1, 0(TMP3)
++  |1:
++  |  li RD, (0+1)*8
++  |  bxeq TMP1, TISNIL, ->fff_res	// End of iteration, return 0 results.
++  |  sd TMP1, -8(BASE)
++  |  li RD, (2+1)*8
++  |  j ->fff_res
++  |2:  // Check for empty hash part first. Otherwise call C function.
++  |  lw TMP0, TAB:CARG1->hmask
++  |  li RD, (0+1)*8
++  |  bxeqz TMP0, ->fff_res
++  |  mv CARG2, TMP2
++  |  jal extern lj_tab_getinth		// (GCtab *t, int32_t key)
++  |  // Returns cTValue * or NULL.
++  |  li RD, (0+1)*8
++  |  bxeqz CRET1, ->fff_res
++  |  ld TMP1, 0(CRET1)
++  |  j <1
++  |
++  |.ffunc_1 ipairs
++  |  checktp TAB:TMP1, CARG1, -LJ_TTAB, ->fff_fallback
++  |  ld PC, FRAME_PC(BASE)
++#if LJ_52
++  |  ld TAB:TMP2, TAB:TMP1->metatable
++#endif
++  |  ld CFUNC:TMP0, CFUNC:RB->upvalue[0]
++  |  addi RA, BASE, -16
++#if LJ_52
++  |  bxnez TAB:TMP2, ->fff_fallback
++#endif
++  |  slli TMP1, TISNUM, 47
++  |  sd CARG1, -8(BASE)
++  |   sd TMP1, 0(BASE)
++  |    sd CFUNC:TMP0, 0(RA)
++  |  li RD, (3+1)*8
++  |  j ->fff_res
++  |
++  |//-- Base library: catch errors ----------------------------------------
++  |
++  |.ffunc pcall
++  |  addi NARGS8:RC, NARGS8:RC, -8
++  |   lbu TMP3, GL->hookmask
++  |   mv TMP2, BASE
++  |  bxltz NARGS8:RC, ->fff_fallback
++  |   addi BASE, BASE, 16
++  |  // Remember active hook before pcall.
++  |  srliw TMP3, TMP3, HOOK_ACTIVE_SHIFT
++  |  andi TMP3, TMP3, 1
++  |  addi PC, TMP3, 16+FRAME_PCALL
++  |  bxeqz NARGS8:RC, ->vm_call_dispatch
++  |1:
++  |   add TMP0, BASE, NARGS8:RC
++  |2:
++  |  ld TMP1, -16(TMP0)
++  |  sd TMP1, -8(TMP0)
++  |  addi TMP0, TMP0, -8
++  |  bne TMP0, BASE, <2
++  |  j ->vm_call_dispatch
++  |
++  |.ffunc xpcall
++  |  addi NARGS8:TMP0, NARGS8:RC, -16
++  |  ld CARG1, 0(BASE)
++  |   ld CARG2, 8(BASE)
++  |     lbu TMP1, GL->hookmask
++  |    bxltz NARGS8:TMP0, ->fff_fallback
++  |  gettp TMP2, CARG2
++  |  addi TMP2, TMP2, -LJ_TFUNC
++  |  bxnez TMP2, ->fff_fallback		// Traceback must be a function.
++  |   mv TMP2, BASE
++  |  mv NARGS8:RC, NARGS8:TMP0
++  |   addi BASE, BASE, 24
++  |  // Remember active hook before pcall.
++  |  srliw TMP3, TMP3, HOOK_ACTIVE_SHIFT
++  |   sd CARG2, 0(TMP2)			// Swap function and traceback.
++  |  andi TMP3, TMP3, 1
++  |   sd CARG1, 8(TMP2)
++  |  addi PC, TMP3, 24+FRAME_PCALL
++  |  bnez NARGS8:RC, <1
++  |  j ->vm_call_dispatch
++  |
++  |//-- Coroutine library --------------------------------------------------
++  |
++  |.macro coroutine_resume_wrap, resume
++  |.if resume
++  |.ffunc_1 coroutine_resume
++  |  checktp CARG1, CARG1, -LJ_TTHREAD, ->fff_fallback
++  |.else
++  |.ffunc coroutine_wrap_aux
++  |  ld L:CARG1, CFUNC:RB->upvalue[0].gcr
++  |  cleartp L:CARG1
++  |.endif
++  |  lbu TMP0, L:CARG1->status
++  |   ld TMP1, L:CARG1->cframe
++  |    ld CARG2, L:CARG1->top
++  |    ld TMP2, L:CARG1->base
++  |  addiw CARG4, TMP0, -LUA_YIELD
++  |    add CARG3, CARG2, TMP0
++  |   addi TMP3, CARG2, 8
++  |  seqz TMP4, CARG4
++  |  neg TMP4, TMP4
++  |  and CARG2, CARG2, TMP4
++  |  not TMP4, TMP4
++  |  and TMP3, TMP3, TMP4
++  |   or CARG2, CARG2, TMP3
++  |  bxgtz CARG4, ->fff_fallback		// st > LUA_YIELD?
++  |   xor TMP2, TMP2, CARG3
++  |   or CARG4, TMP2, TMP0
++  |  bxnez TMP1, ->fff_fallback		// cframe != 0?
++  |  ld TMP0, L:CARG1->maxstack
++  |   ld PC, FRAME_PC(BASE)
++  |  bxeqz CARG4, ->fff_fallback		// base == top && st == 0?
++  |  add TMP2, CARG2, NARGS8:RC
++  |  sd BASE, L->base
++  |  sd PC, SAVE_PC(sp)
++  |  bxltu TMP0, TMP2, ->fff_fallback		// Stack overflow?
++  |1:
++  |.if resume
++  |  addi BASE, BASE, 8		// Keep resumed thread in stack for GC.
++  |  addi NARGS8:RC, NARGS8:RC, -8
++  |  addi TMP2, TMP2, -8
++  |.endif
++  |  sd TMP2, L:CARG1->top
++  |  sd BASE, L->top
++  |  add TMP1, BASE, NARGS8:RC
++  |  mv CARG3, CARG2
++  |2:  // Move args to coroutine.
++  |   ld TMP0, 0(BASE)
++  |  sltu TMP3, BASE, TMP1
++  |   addi BASE, BASE, 8
++  |  beqz TMP3, >3
++  |   sd TMP0, 0(CARG3)
++  |   addi CARG3, CARG3, 8
++  |  j <2
++  |3:
++  |   mv L:RA, L:CARG1
++  |  jal ->vm_resume			// (lua_State *L, TValue *base, 0, 0)
++  |  // Returns thread status.
++  |4:
++  |  ld TMP2, L:RA->base
++  |   sltiu TMP1, CRET1, LUA_YIELD+1
++  |  ld TMP3, L:RA->top
++  |    li_vmstate INTERP
++  |  ld BASE, L->base
++  |     sd L, GL->cur_L
++  |    st_vmstate
++  |  sub RD, TMP3, TMP2
++  |   beqz TMP1, >8
++  |  ld TMP0, L->maxstack
++  |   add TMP1, BASE, RD
++  |  beqz RD, >6			// No results?
++  |   add TMP3, TMP2, RD
++  |  bltu TMP0, TMP1, >9		// Need to grow stack?
++  |  sd TMP2, L:RA->top		// Clear coroutine stack.
++  |  mv TMP1, BASE
++  |5:  // Move results from coroutine.
++  |  ld TMP0, 0(TMP2)
++  |  addi TMP2, TMP2, 8
++  |  sd TMP0, 0(TMP1)
++  |  addi TMP1, TMP1, 8
++  |  bltu TMP2, TMP3, <5
++  |6:
++  |.if resume
++  |  mov_true TMP1
++  |  addi RD, RD, 16
++  |7:
++  |  sd TMP1, -8(BASE)	// Prepend true/false to results.
++  |   addi RA, BASE, -8
++  |.else
++  |  mv RA, BASE
++  |  addi RD, RD, 8
++  |.endif
++  |  andi TMP0, PC, FRAME_TYPE
++  |  sd PC, SAVE_PC(sp)
++  |   mv MULTRES, RD
++  |//  bxeqz TMP0, ->BC_RET_Z	// Local label 9 in use
++  |  bnez TMP0, >6
++  |  j ->BC_RET_Z
++  |6:
++  |  j ->vm_return
++  |
++  |8:  // Coroutine returned with error (at co->top-1).
++  |.if resume
++  |  addi TMP3, TMP3, -8
++  |   mov_false TMP1
++  |   li RD, (2+1)*8
++  |   ld TMP0, 0(TMP3)
++  |  sd TMP3, L:RA->top		// Remove error from coroutine stack.
++  |  sd TMP0, 0(BASE)			// Copy error message.
++  |  j <7
++  |.else
++  |  mv CARG1, L
++  |  mv CARG2, L:RA
++  |  jal extern lj_ffh_coroutine_wrap_err  // (lua_State *L, lua_State *co)
++  |.endif
++  |
++  |9:  // Handle stack expansion on return from yield.
++  |  mv CARG1, L
++  |  srliw CARG2, RD, 3
++  |  jal extern lj_state_growstack	// (lua_State *L, int n)
++  |  mv CRET1, x0
++  |  j <4
++  |.endmacro
++  |
++  |  coroutine_resume_wrap 1		// coroutine.resume
++  |  coroutine_resume_wrap 0		// coroutine.wrap
++  |
++  |.ffunc coroutine_yield
++  |  ld TMP0, L->cframe
++  |   add TMP1, BASE, NARGS8:RC
++  |    li CRET1, LUA_YIELD
++  |   sd BASE, L->base
++  |  andi TMP0, TMP0, CFRAME_RESUME
++  |   sd TMP1, L->top
++  |  bxeqz TMP0, ->fff_fallback
++  |  sd x0, L->cframe
++  |    sb CRET1, L->status
++  |  j ->vm_leave_unw
++  |
++  |//-- Math library -------------------------------------------------------
++  |
++  |.macro math_round, func
++  |->ff_math_ .. func:
++  |  ld CARG1, 0(BASE)
++  |   gettp TMP0, CARG1
++  |  bxeqz NARGS8:RC, ->fff_fallback
++  |  bxeq TMP0, TISNUM, ->fff_restv
++  |   fld FARG1, 0(BASE)
++  |  bxgeu TMP0, TISNUM, ->fff_fallback
++  |  jal ->vm_ .. func
++  |  j ->fff_resn
++  |.endmacro
++  |
++  |  math_round floor
++  |  math_round ceil
++  |
++  |.ffunc_1 math_abs
++  |  gettp CARG2, CARG1
++  |  addi TMP2, CARG2, -LJ_TISNUM
++  |   sext.w TMP1, CARG1
++  |  bnez TMP2, >1
++  |  sraiw TMP0, TMP1, 31			// Extract sign. int
++  |  xor TMP1, TMP1, TMP0
++  |  sub CARG1, TMP1, TMP0
++  |  slli TMP3, CARG1, 32
++  |   settp CARG1, TISNUM
++  |  bxgez TMP3, ->fff_restv
++  |  lui CARG1, 0x41e00		// 2^31 as a double.
++  |  slli CARG1, CARG1, 32
++  |  j ->fff_restv
++  |1:
++  |  sltiu TMP2, CARG2, LJ_TISNUM
++  |  slli CARG1, CARG1, 1
++  |  srli CARG1, CARG1, 1
++  |  bxeqz TMP2, ->fff_fallback		// int
++  |// fallthrough
++  |
++  |->fff_restv:
++  |  // CARG1 = TValue result.
++  |  ld PC, FRAME_PC(BASE)
++  |  sd CARG1, -16(BASE)
++  |->fff_res1:
++  |  // RA = results, PC = return.
++  |  li RD, (1+1)*8
++  |->fff_res:
++  |  // RA = results, RD = (nresults+1)*8, PC = return.
++  |  andi TMP0, PC, FRAME_TYPE
++  |   mv MULTRES, RD
++  |  addi RA, BASE, -16
++  |  bxnez TMP0, ->vm_return
++  |  lw INS, -4(PC)
++  |  decode_RB8 RB, INS
++  |5:
++  |  bltu RD, RB, >6			// More results expected?
++  |  decode_RA8a TMP0, INS
++  |  ins_next1
++  |  decode_RA8b TMP0
++  |  // Adjust BASE. KBASE is assumed to be set for the calling frame.
++  |  sub BASE, RA, TMP0
++  |  ins_next2
++  |
++  |6:  // Fill up results with nil.
++  |  add TMP1, RA, RD
++  |   addi RD, RD, 8
++  |   sd TISNIL, -8(TMP1)
++  |  j <5
++  |
++  |.macro math_extern, func
++  |  .ffunc_n math_ .. func
++  |  load_got func
++  |  call_extern
++  |  j ->fff_resn
++  |.endmacro
++  |
++  |.macro math_extern2, func
++  |  .ffunc_nn math_ .. func
++  |  load_got func
++  |  call_extern
++  |  j ->fff_resn
++  |.endmacro
++  |
++  |.ffunc_n math_sqrt
++  |  fsqrt.d FRET1, FARG1
++  |->fff_resn:
++  |  ld PC, FRAME_PC(BASE)
++  |  fsd FRET1, -16(BASE)
++  |  j ->fff_res1
++  |
++  |.ffunc math_log
++  |  li TMP1, 8
++  |   ld CARG1, 0(BASE)
++  |   fld FARG1, 0(BASE)
++  |  bxne NARGS8:RC, TMP1, ->fff_fallback		// Need exactly 1 argument.
++  |  load_got log
++  |  checknum CARG1, ->fff_fallback
++  |  call_extern
++  |  j ->fff_resn
++  |
++  |  math_extern log10
++  |  math_extern exp
++  |  math_extern sin
++  |  math_extern cos
++  |  math_extern tan
++  |  math_extern asin
++  |  math_extern acos
++  |  math_extern atan
++  |  math_extern sinh
++  |  math_extern cosh
++  |  math_extern tanh
++  |  math_extern2 pow
++  |  math_extern2 atan2
++  |  math_extern2 fmod
++  |
++  |.ffunc_2 math_ldexp
++  |  checknum CARG1, ->fff_fallback
++  |  checkint CARG2, ->fff_fallback
++  |  load_got ldexp			// (double x, int exp)
++  |   fld FARG1, 0(BASE)
++  |   lw CARG1, 8(BASE)
++  |  call_extern
++  |  j ->fff_resn
++  |
++  |.ffunc_n math_frexp
++  |  load_got frexp
++  |   ld PC, FRAME_PC(BASE)
++  |  addi CARG1, GL, offsetof(global_State, tmptv)
++  |  call_extern
++  |    lw TMP1, GL->tmptv
++  |   fcvt.d.w FARG2, TMP1
++  |  fsd FRET1, -16(BASE)
++  |   fsd FARG2, -8(BASE)
++  |  li RD, (2+1)*8
++  |  j ->fff_res
++  |
++  |.ffunc_n math_modf
++  |  load_got modf
++  |   addi CARG1, BASE, -16
++  |   ld PC, FRAME_PC(BASE)
++  |  call_extern
++  |  fsd FRET1, -8(BASE)
++  |   li RD, (2+1)*8
++  |  j ->fff_res
++  |
++  |.macro math_minmax, name, ismax, fpins
++  |  .ffunc_1 name
++  |  add RB, BASE, NARGS8:RC
++  |   addi RA, BASE, 8
++  |  checkint CARG1, >4
++  |1:  // Handle integers.
++  |   ld CARG2, 0(RA)
++  |  bxeq RA, RB, ->fff_restv
++  |   sext.w CARG1, CARG1
++  |  checkint CARG2, >3
++  |   sext.w CARG2, CARG2
++  |   slt TMP0, CARG1, CARG2
++  |.if ismax
++  |   addi TMP1, TMP0, -1
++  |.else
++  |   neg TMP1, TMP0
++  |.endif
++  | and CARG1, CARG1, TMP1
++  |  not TMP1, TMP1
++  |  and CARG2, CARG2, TMP1
++  |   or CARG1, CARG1, CARG2
++  |  addi RA, RA, 8
++  |   zext.w CARG1, CARG1
++  |   settp CARG1, TISNUM
++  |  j <1
++  |3:  // Convert intermediate result to number and continue below.
++  |   fcvt.d.w FARG1, CARG1
++  |  checknum CARG2, ->fff_fallback
++  |   fld FARG2, 0(RA)
++  |  j >6
++  |
++  |4:
++  |  fld FARG1, 0(BASE)
++  |  checknum CARG1, ->fff_fallback
++  |5:  // Handle numbers.
++  |  ld CARG2, 0(RA)
++  |  fld FARG2, 0(RA)
++  |   bxgeu RA, RB, ->fff_resn
++  |  checknum CARG2, >7
++  |6:
++  |  fpins FARG1, FARG1, FARG2
++  |   addi RA, RA, 8
++  |  j <5
++  |7:  // Convert integer to number and continue above.
++  |  checkint CARG2, ->fff_fallback
++  |   fcvt.d.w FARG2, CARG2
++  |  j <6
++  |.endmacro
++  |
++  |  math_minmax math_min, 0, fmin.d
++  |  math_minmax math_max, 1, fmax.d
++  |
++  |//-- String library -----------------------------------------------------
++  |
++  |.ffunc string_byte			// Only handle the 1-arg case here.
++  |  ld CARG1, 0(BASE)
++  |  gettp TMP0, CARG1
++  |  xori TMP1, NARGS8:RC, 8
++  |  addi TMP0, TMP0, -LJ_TSTR
++  |  or TMP1, TMP1, TMP0
++  |   cleartp STR:CARG1
++  |  bxnez TMP1, ->fff_fallback		// Need exactly 1 string argument.
++  |  lw TMP0, STR:CARG1->len
++  |    ld PC, FRAME_PC(BASE)
++  |  snez RD, TMP0
++  |   lbu TMP2, STR:CARG1[1]		// Access is always ok (NUL at end).
++  |  addiw RD, RD, 1
++  |  slliw RD, RD, 3			// RD = ((str->len != 0)+1)*8
++  |  settp TMP2, TISNUM
++  |   sd TMP2, -16(BASE)
++  |  j ->fff_res
++  |
++  |.ffunc string_char			// Only handle the 1-arg case here.
++  |  ffgccheck
++  |  ld CARG1, 0(BASE)
++  |  gettp TMP0, CARG1
++  |  xori TMP1, NARGS8:RC, 8		// Need exactly 1 argument.
++  |  addi TMP0, TMP0, -LJ_TISNUM	// Integer.
++  |  li TMP2, 255
++  |   sext.w CARG1, CARG1
++  |  or TMP1, TMP1, TMP0
++  |   sltu TMP2, TMP2, CARG1		// !(255 < n).
++  |   or TMP1, TMP1, TMP2
++  |   li CARG3, 1
++  |  bxnez TMP1, ->fff_fallback
++  |  addi CARG2, sp, TMPD_OFS
++  |  sb CARG1, TMPD(sp)
++  |->fff_newstr:
++  |  sd BASE, L->base
++  |  sd PC, SAVE_PC(sp)
++  |  mv CARG1, L
++  |  jal extern lj_str_new		// (lua_State *L, char *str, size_t l)
++  |  // Returns GCstr *.
++  |  ld BASE, L->base
++  |->fff_resstr:
++  |  li TMP1, LJ_TSTR
++  |  settp CRET1, TMP1
++  |  j ->fff_restv
++  |
++  |.ffunc string_sub
++  |  ffgccheck
++  |  ld CARG1, 0(BASE)
++  |  ld CARG2, 8(BASE)
++  |  ld CARG3, 16(BASE)
++  |  addi TMP0, NARGS8:RC, -16
++  |   gettp TMP1, CARG1
++  |  bxltz TMP0, ->fff_fallback
++  |  cleartp STR:CARG1, CARG1
++  |   li CARG4, -1
++  |  beqz TMP0, >1
++  |   sext.w CARG4, CARG3
++  |  checkint CARG3, ->fff_fallback
++  |1:
++  |  checkint CARG2, ->fff_fallback
++  |  addi TMP0, TMP1, -LJ_TSTR
++  |   sext.w CARG3, CARG2
++  |  bxnez TMP0, ->fff_fallback
++  |  lw CARG2, STR:CARG1->len
++  |  // STR:CARG1 = str, CARG2 = str->len, CARG3 = start, CARG4 = end
++  |  addiw TMP0, CARG2, 1
++  |  bgez CARG4, >2
++  |  addw CARG4, CARG4, TMP0		// if (end < 0) end += len+1
++  |2:
++  |  bgez CARG3, >3
++  |  addw CARG3, CARG3, TMP0		// if (start < 0) start += len+1
++  |3:
++  |  bgez CARG4, >4
++  |  mv CARG4, x0			// if (end < 0) end = 0
++  |4:
++  |  bgtz CARG3, >5
++  |   li CARG3, 1		// if (start < 1) start = 1
++  |5:
++  |  ble CARG4, CARG2, >6
++  |  mv CARG4, CARG2		// if (end > len) end = len
++  |6:
++  |   add CARG2, STR:CARG1, CARG3
++  |  sub CARG3, CARG4, CARG3		// len = end - start
++  |   addi CARG2, CARG2, sizeof(GCstr)-1
++  |   addiw CARG3, CARG3, 1             // len += 1
++  |  bxgez CARG3, ->fff_newstr
++  |->fff_emptystr:  // Return empty string.
++  |  li TMP1, LJ_TSTR
++  |  addi STR:CARG1, GL, offsetof(global_State, strempty)
++  |   settp CARG1, TMP1
++  |  j ->fff_restv
++  |
++  |.macro ffstring_op, name
++  |  .ffunc string_ .. name
++  |  ffgccheck
++  |   ld CARG2, 0(BASE)
++  |  bxeqz NARGS8:RC, ->fff_fallback
++  |  checkstr STR:CARG2, ->fff_fallback
++  |  addi SBUF:CARG1, GL, offsetof(global_State, tmpbuf)
++  |  ld TMP0, SBUF:CARG1->b
++  |   sd L, SBUF:CARG1->L
++  |   sd BASE, L->base
++  |  sd TMP0, SBUF:CARG1->w
++  |   sd PC, SAVE_PC(sp)
++  |  jal extern lj_buf_putstr_ .. name
++  |//  mv SBUF:CARG1, SBUF:CRET1
++  |  jal extern lj_buf_tostr
++  |   ld BASE, L->base
++  |  j ->fff_resstr
++  |.endmacro
++  |
++  |ffstring_op reverse
++  |ffstring_op lower
++  |ffstring_op upper
++  |
++  |//-- Bit library --------------------------------------------------------
++  |
++  |->vm_tobit_fb:
++  |  fld FARG1, 0(BASE)
++  |  bxeqz TMP1, ->fff_fallback
++  |   fadd.d FARG1, FARG1, TOBIT
++  |  fmv.x.w CRET1, FARG1
++  |  zext.w CRET1, CRET1
++  |  ret
++  |
++  |.macro .ffunc_bit, name
++  |  .ffunc_1 bit_..name
++  |  gettp TMP0, CARG1
++  |   zext.w CRET1, CARG1
++  |  beq TMP0, TISNUM, >1
++  |   sltiu TMP1, TMP0, LJ_TISNUM
++  |  jal ->vm_tobit_fb
++  |1:
++  |.endmacro
++  |
++  |.macro .ffunc_bit_op, name, bins
++  |  .ffunc_bit name
++  |  addi TMP2, BASE, 8
++  |  add TMP3, BASE, NARGS8:RC
++  |1:
++  |   ld TMP1, 0(TMP2)
++  |  bxeq TMP2, TMP3, ->fff_resi
++  |  gettp TMP0, TMP1
++  |   addi TMP2, TMP2, 8
++  |  bne TMP0, TISNUM, >2
++  |  zext.w TMP1, TMP1
++  |   bins CRET1, CRET1, TMP1
++  |  j <1
++  |2:
++  |   fld FARG1, -8(TMP2)
++  |  sltiu TMP0, TMP0, LJ_TISNUM
++  |   fadd.d FARG1, FARG1, TOBIT
++  |  bxeqz TMP0, ->fff_fallback
++  |  fmv.x.w TMP1, FARG1
++  |  zext.w TMP1, TMP1
++  |   bins CRET1, CRET1, TMP1
++  |  j <1
++  |.endmacro
++  |
++  |.ffunc_bit_op band, and
++  |.ffunc_bit_op bor, or
++  |.ffunc_bit_op bxor, xor
++  |
++  |.ffunc_bit bswap
++  |  srliw CARG2, CARG1, 8
++  |   lui CARG3, 16
++  |   addiw CARG3, CARG3, -256
++  |  and CARG2, CARG2, CARG3
++  |   srliw CARG3, CARG1, 24
++  |  or CARG2, CARG2, CARG3
++  |   slli CARG3, CARG1, 8
++  |    lui CARG4, 0x00ff0
++  |   and CARG3, CARG3, CARG4
++  |  slli CARG1, CARG1, 24
++  |  or CARG1, CARG1, CARG3
++  |  or CARG1, CARG1, CARG2
++  |  slli CARG1, CARG1, 32
++  |  srli CARG1, CARG1, 32
++  |  j ->fff_resi
++  |
++  |.ffunc_bit tobit
++  |->fff_resi:
++  |  settp CARG1, TISNUM	// CARG1 = CRET1
++  |  j ->fff_restv
++  |
++  |.ffunc_bit bnot
++  |  not CRET1, CRET1
++  |  zext.w CRET1, CRET1
++  |  j ->fff_resi
++  |
++  |.macro .ffunc_bit_sh, name, shins
++  |  .ffunc_2 bit_..name
++  |  gettp TMP0, CARG1
++  |  beq TMP0, TISNUM, >1
++  |   sltiu TMP1, TMP0, LJ_TISNUM
++  |  jal ->vm_tobit_fb
++  |//  mv CARG1, CRET1		// CARG1 = CRET1
++  |1:
++  |  gettp TMP0, CARG2
++  |   zext.w CARG2, CARG2
++  |  bxne TMP0, TISNUM, ->fff_fallback
++  |  sext.w CARG1, CARG1
++  |  shins CRET1, CARG1, CARG2
++  |   zext.w CRET1, CRET1
++  |  j ->fff_resi
++  |.endmacro
++  |
++  |.ffunc_bit_sh lshift, sllw
++  |.ffunc_bit_sh rshift, srlw
++  |.ffunc_bit_sh arshift, sraw
++  |
++  |.macro .ffunc_bit_rot, name, rotinsa, rotinsb
++  |  .ffunc_2 bit_..name
++  |  gettp TMP0, CARG1
++  |  beq TMP0, TISNUM, >1
++  |   sltiu TMP1, TMP0, LJ_TISNUM
++  |  jal ->vm_tobit_fb
++  |//  mv CARG1, CRET1		// CARG1 = CRET1
++  |1:
++  |  gettp TMP0, CARG2
++  |   zext.w CARG2, CARG2
++  |  bxne TMP0, TISNUM, ->fff_fallback
++  |  sext.w CARG1, CARG1
++  |  neg TMP2, CARG2
++  |  rotinsa TMP1, CARG1, CARG2
++  |  rotinsb TMP0, CARG1, TMP2
++  |  or CRET1, TMP0, TMP1
++  |   zext.w CRET1, CRET1
++  |  j ->fff_resi
++  |.endmacro
++  |
++  |.ffunc_bit_rot rol, sllw, srlw
++  |.ffunc_bit_rot ror, srlw, sllw
++  |
++  |//-----------------------------------------------------------------------
++  |
++  |->fff_fallback:			// Call fast function fallback handler.
++  |  // BASE = new base, RB = CFUNC, RC = nargs*8
++  |   ld PC, FRAME_PC(BASE)		// Fallback may overwrite PC.
++  |  ld CARG3, CFUNC:RB->f
++  |    add TMP1, BASE, NARGS8:RC
++  |  sd BASE, L->base
++  |    addi TMP0, TMP1, 8*LUA_MINSTACK
++  |     ld TMP2, L->maxstack
++  |   sd PC, SAVE_PC(sp)			// Redundant (but a defined value).
++  |    sd TMP1, L->top
++  |   mv CARG1, L
++  |  bltu TMP2, TMP0, >5			// Need to grow stack.
++  |  jalr CARG3				// (lua_State *L)
++  |  // Either throws an error, or recovers and returns -1, 0 or nresults+1.
++  |  ld BASE, L->base
++  |   slliw RD, CRET1, 3
++  |  bxgtz CRET1, ->fff_res		// Returned nresults+1?
++  |1:  // Returned 0 or -1: retry fast path.
++  |   ld LFUNC:RB, FRAME_FUNC(BASE)
++  |  ld TMP0, L->top
++  |   sub NARGS8:RC, TMP0, BASE
++  |   cleartp LFUNC:RB
++  |  bxnez CRET1, ->vm_call_tail		// Returned -1?
++  |  ins_callt				// Returned 0: retry fast path.
++  |
++  |// Reconstruct previous base for vmeta_call during tailcall.
++  |->vm_call_tail:
++  |  andi TMP0, PC, FRAME_TYPE
++  |   andi TMP1, PC, ~FRAME_TYPEP	// TODO
++  |  bnez TMP0, >3
++  |  lbu TMP1, OFS_RA(PC)
++  |  slliw TMP1, TMP1, 3
++  |  addiw TMP1, TMP1, 16
++  |3:
++  |   sub TMP2, BASE, TMP1
++  |  j ->vm_call_dispatch		// Resolve again for tailcall.
++  |
++  |5:  // Grow stack for fallback handler.
++  |  li CARG2, LUA_MINSTACK
++  |   mv CARG1, L
++  |  jal extern lj_state_growstack	// (lua_State *L, int n)
++  |  ld BASE, L->base
++  |   mv CRET1, x0		// Set zero-flag to force retry.
++  |  j <1
++  |
++  |->fff_gcstep:			// Call GC step function.
++  |  // BASE = new base, RC = nargs*8
++  |  mv MULTRES, ra
++  |  add TMP0, BASE, NARGS8:RC	// Calculate L->top.
++  |   sd BASE, L->base
++  |   sd PC, SAVE_PC(sp)		// Redundant (but a defined value).
++  |   mv CARG1, L
++  |  sd TMP0, L->top
++  |  jal extern lj_gc_step		// (lua_State *L)
++  |   ld BASE, L->base
++  |//  mv ra, MULTRES
++  |    ld TMP0, L->top
++  |  ld CFUNC:RB, FRAME_FUNC(BASE)
++  |  cleartp CFUNC:RB
++  |   sub NARGS8:RC, TMP0, BASE
++  |  jr MULTRES
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Special dispatch targets -------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |->vm_record:				// Dispatch target for recording phase.
++  |.if JIT
++  |  lbu TMP3, GL->hookmask
++  |  andi TMP1, TMP3, HOOK_VMEVENT	// No recording while in vmevent.
++  |  bnez TMP1, >5
++  |  // Decrement the hookcount for consistency, but always do the call.
++  |  lw TMP2, GL->hookcount
++  |  andi TMP1, TMP3, HOOK_ACTIVE
++  |  bnez TMP1, >1
++  |  addiw TMP2, TMP2, -1
++  |  andi TMP1, TMP3, LUA_MASKLINE|LUA_MASKCOUNT
++  |  beqz TMP1, >1
++  |  sw TMP2, GL->hookcount
++  |  j >1
++  |.endif
++  |
++  |->vm_rethook:			// Dispatch target for return hooks.
++  |   lbu TMP3, GL->hookmask
++  |  andi TMP1, TMP3, HOOK_ACTIVE		// Hook already active?
++  |  beqz TMP1, >1
++  |5:  // Re-dispatch to static ins.
++  |   ld TMP1, GG_DISP2STATIC(TMP0)	// Assumes TMP0 holds DISPATCH+OP*4.
++  |  jr TMP1
++  |
++  |->vm_inshook:			// Dispatch target for instr/line hooks.
++  |  lbu TMP3, GL->hookmask
++  |  lw TMP2, GL->hookcount
++  |  andi TMP1, TMP3, HOOK_ACTIVE		// Hook already active?
++  |  bnez TMP1, <5
++  |   andi TMP1, TMP3, LUA_MASKLINE|LUA_MASKCOUNT
++  |   addiw TMP2, TMP2, -1
++  |  beqz TMP1, <5
++  |   sw TMP2, GL->hookcount
++  |  beqz TMP2, >1
++  |  andi TMP1, TMP3, LUA_MASKLINE
++  |  beqz TMP1, <5
++  |1:
++  |   sw MULTRES, TMPD(sp)
++  |  mv CARG2, PC
++  |   sd BASE, L->base
++  |   mv CARG1, L
++  |  // SAVE_PC must hold the _previous_ PC. The callee updates it with PC.
++  |  jal extern lj_dispatch_ins	// (lua_State *L, const BCIns *pc)
++  |3:
++  |  ld BASE, L->base
++  |4:  // Re-dispatch to static ins.
++  |  lw INS, -4(PC)
++  |  decode_OP8 TMP1, INS
++  |  add TMP0, DISPATCH, TMP1
++  |   decode_RD8a RD, INS
++  |  ld TMP1, GG_DISP2STATIC(TMP0)
++  |   decode_RA8 RA, INS
++  |   decode_RD8b RD
++  |  jr TMP1
++  |
++  |->cont_hook:				// Continue from hook yield.
++  |  addi PC, PC, 4
++  |   lw MULTRES, -24(RB)		// Restore MULTRES for *M ins.
++  |  j <4
++  |
++  |->vm_hotloop:			// Hot loop counter underflow.
++  |.if JIT
++  |  ld LFUNC:TMP1, FRAME_FUNC(BASE)
++  |  addi CARG1, GL, GG_G2J
++  |  cleartp LFUNC:TMP1
++  |  sd PC, SAVE_PC(sp)
++  |  ld TMP1, LFUNC:TMP1->pc
++  |  mv CARG2, PC
++  |  sd L, (offsetof(jit_State, L))(CARG1)
++  |  lbu TMP1, PC2PROTO(framesize)(TMP1)
++  |  sd BASE, L->base
++  |  slli TMP1, TMP1, 3
++  |  add TMP1, BASE, TMP1
++  |  sd TMP1, L->top
++  |  jal extern lj_trace_hot		// (jit_State *J, const BCIns *pc)
++  |  j <3
++  |.endif
++  |
++  |
++  |->vm_callhook:			// Dispatch target for call hooks.
++  |  mv CARG2, PC
++  |.if JIT
++  |  j >1
++  |.endif
++  |
++  |->vm_hotcall:			// Hot call counter underflow.
++  |.if JIT
++  |  ori CARG2, PC, 1
++  |1:
++  |.endif
++  |  add TMP0, BASE, RC
++  |  sd PC, SAVE_PC(sp)
++  |  sd BASE, L->base
++  |  sub RA, RA, BASE
++  |  sd TMP0, L->top
++  |  mv CARG1, L
++  |  jal extern lj_dispatch_call		// (lua_State *L, const BCIns *pc)
++  |  // Returns ASMFunction.
++  |  ld BASE, L->base
++  |  ld TMP0, L->top
++  |  sd x0, SAVE_PC(sp)		// Invalidate for subsequent line hook.
++  |  add RA, BASE, RA
++  |  sub NARGS8:RC, TMP0, BASE
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)
++  |  cleartp LFUNC:RB
++  |  lw INS, -4(PC)
++  |  jr CRET1
++  |
++  |->cont_stitch:			// Trace stitching.
++  |.if JIT
++  |  // RA = resultptr, RB = meta base
++  |  lw INS, -4(PC)
++  |  ld TRACE:TMP2, -40(RB)		// Save previous trace.
++  |  decode_RA8 RC, INS
++  |  addi TMP1, MULTRES, -8
++  |  cleartp TRACE:TMP2
++  |  add RC, BASE, RC			// Call base.
++  |  beqz TMP1, >2
++  |1:  // Move results down.
++  |  ld CARG1, 0(RA)
++  |  addi TMP1, TMP1, -8
++  |  addi RA, RA, 8
++  |  sd CARG1, 0(RC)
++  |  addi RC, RC, 8
++  |  bnez TMP1, <1
++  |2:
++  |  decode_RA8 RA, INS
++  |  decode_RB8 RB, INS
++  |  add RA, RA, RB
++  |  add RA, BASE, RA
++  |3:
++  |  bltu RC, RA, >8			// More results wanted?
++  |
++  |  lhu TMP3, TRACE:TMP2->traceno
++  |  lhu RD, TRACE:TMP2->link
++  |  bxeq RD, TMP3, ->cont_nop		// Blacklisted.
++  |  slliw RD, RD, 3
++  |  bxnez RD, =>BC_JLOOP		// Jump to stitched trace.
++  |
++  |  // Stitch a new trace to the previous trace.
++  |  addi CARG1, GL, GG_G2J
++  |  // addi CARG2, CARG1, 1		// We don't care what's on the verge.
++  |  addi CARG2, CARG1, 2047		// jit_State too large.
++  |  sw TMP3, (offsetof(jit_State, exitno)-2047)(CARG2)
++  |  sd L, (offsetof(jit_State, L)-2047)(CARG2)
++  |  sd BASE, L->base
++  |  mv CARG2, PC
++  |  jal extern lj_dispatch_stitch	// (jit_State *J, const BCIns *pc)
++  |  ld BASE, L->base
++  |  j ->cont_nop
++  |
++  |8:
++  |  sd TISNIL, 0(RC)
++  |  addi RC, RC, 8
++  |  j <3
++  |.endif
++  |
++  |->vm_profhook:			// Dispatch target for profiler hook.
++#if LJ_HASPROFILE
++  |   mv CARG1, L
++  |  mv CARG2, PC
++  |   sd BASE, L->base
++  |   sw MULTRES, TMPD(sp)
++  |  jal extern lj_dispatch_profile	// (lua_State *L, const BCIns *pc)
++  |  // HOOK_PROFILE is off again, so re-dispatch to dynamic instruction.
++  |  addi PC, PC, -4
++  |   ld BASE, L->base
++  |  j ->cont_nop
++#endif
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Trace exit handler -------------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |.macro savex_, a, b
++  |  fsd f..a, a*8(sp)
++  |  fsd f..b, b*8(sp)
++  |  sd x..a, 32*8+a*8(sp)
++  |  sd x..b, 32*8+b*8(sp)
++  |.endmacro
++  |
++  |->vm_exit_handler:
++  |.if JIT
++  |  addi sp, sp, -(32*8+32*8)
++  |  savex_ 0, 5
++  |  savex_ 6, 7
++  |  savex_ 8, 9
++  |  savex_ 10, 11
++  |  savex_ 12, 13
++  |  savex_ 14, 15
++  |  savex_ 16, 17
++  |  savex_ 18, 19
++  |  savex_ 20, 21
++  |  savex_ 22, 23
++  |  savex_ 24, 25
++  |  savex_ 26, 27
++  |  savex_ 28, 29
++  |  savex_ 30, 31
++  |  fsd f1, 1*8(sp)
++  |  fsd f2, 2*8(sp)
++  |  fsd f3, 3*8(sp)
++  |  fsd f4, 4*8(sp)
++  |  sd x0, 32*8+1*8(sp)		// Clear RID_TMP.
++  |  ld TMP1, 32*8+32*8(sp)			// Load exit pc.
++  |   addi TMP2, sp, 32*8+32*8		// Recompute original value of sp.
++  |  addxi DISPATCH, GL, GG_G2DISP
++  |   sd TMP2, 32*8+2*8(sp)		// Store sp in RID_SP
++  |  addi CARG1, GL, GG_G2J
++  |    li_vmstate EXIT
++  |  // addi CARG2, CARG1, 1		// We don't care what's on the verge.
++  |  addi CARG2, CARG1, 2047		// jit_State too large.
++  |  sub TMP1, TMP1, ra
++  |   lw TMP2, 0(ra)			// Load trace number.
++  |    st_vmstate
++  |  srli TMP1, TMP1, 2
++  |  ld L, GL->cur_L
++  |  ld BASE, GL->jit_base
++  |  srli TMP2, TMP2, 12
++  |  addi TMP1, TMP1, -2
++  |  sd L, (offsetof(jit_State, L)-2047)(CARG2)
++  |  sw TMP2, (offsetof(jit_State, parent)-2047)(CARG2)	// Store trace number.
++  |  sd BASE, L->base
++  |  sw TMP1, (offsetof(jit_State, exitno)-2047)(CARG2)	// Store exit number.
++  |  sd x0, GL->jit_base
++  |  mv CARG2, sp
++  |  jal extern lj_trace_exit		// (jit_State *J, ExitState *ex)
++  |  // Returns MULTRES (unscaled) or negated error code.
++  |  ld TMP1, L->cframe
++  |  ld BASE, L->base
++  |  andi sp, TMP1, CFRAME_RAWMASK
++  |  ld PC, SAVE_PC(sp)		// Get SAVE_PC.
++  |  sd L, SAVE_L(sp)			// Set SAVE_L (on-trace resume/yield).
++  |  j >1
++  |.endif
++  |
++  |->vm_exit_interp:
++  |.if JIT
++  |  // CRET1 = MULTRES or negated error code, BASE, PC and JGL set.
++  |  ld L, SAVE_L(sp)
++  |  addxi DISPATCH, GL, GG_G2DISP
++  |  sd BASE, L->base
++  |1:
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)
++  |  bltz CRET1, >9			// Check for error from exit.
++  |  lui TMP3, 0x43380		// TOBIT = Hiword of 2^52 + 2^51 (double).
++  |  slli MULTRES, CRET1, 3
++  |  cleartp LFUNC:RB
++  |  sw MULTRES, TMPD(sp)
++  |  li TISNIL, LJ_TNIL
++  |  li TISNUM, LJ_TISNUM		// Setup type comparison constants.
++  |  slli TMP3, TMP3, 32
++  |  ld TMP1, LFUNC:RB->pc
++  |  sd x0, GL->jit_base
++  |  ld KBASE, PC2PROTO(k)(TMP1)
++  |  fmv.d.x TOBIT, TMP3
++  |  // Modified copy of ins_next which handles function header dispatch, too.
++  |  lw INS, 0(PC)
++  |  addi PC, PC, 4
++  |  // Assumes TISNIL == ~LJ_VMST_INTERP == -1
++  |  sw TISNIL, GL->vmstate
++  |  decode_OP8 TMP1, INS
++  |  sltiu TMP2, TMP1, BC_FUNCF*8
++  |  add TMP0, DISPATCH, TMP1
++  |  decode_RD8 RD, INS
++  |  ld TMP3, 0(TMP0)
++  |  decode_RA8 RA, INS
++  |  beqz TMP2, >2
++  |  jr TMP3
++  |2:
++  |  sltiu TMP2, TMP1, (BC_FUNCC+2)*8	// Fast function?
++  |  ld TMP1, FRAME_PC(BASE)
++  |  bnez TMP2, >3
++  |  // Check frame below fast function.
++  |  andi TMP0, TMP1, FRAME_TYPE
++  |  bnez TMP0, >3			// Trace stitching continuation?
++  |  // Otherwise set KBASE for Lua function below fast function.
++  |  lw TMP2, -4(TMP1)
++  |  decode_RA8 TMP0, TMP2
++  |  sub TMP1, BASE, TMP0
++  |  ld LFUNC:TMP2, -32(TMP1)
++  |  cleartp LFUNC:TMP2
++  |  ld TMP1, LFUNC:TMP2->pc
++  |  ld KBASE, PC2PROTO(k)(TMP1)
++  |3:
++  |  addi RC, MULTRES, -8
++  |  add RA, RA, BASE
++  |  jr TMP3
++  |
++  |9:  // Rethrow error from the right C frame.
++  |  negw CARG2, CRET1
++  |  mv CARG1, L
++  |  jal extern lj_err_trace		// (lua_State *L, int errcode)
++  |.endif
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Math helper functions ----------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |
++  |// Hard-float round to integer.
++  |// Modifies TMP0, TMP1, FARG1, FARG5, FTMP1, FTMP3, FTMP4
++  |.macro vm_round_hf, func
++  |  lui TMP0, 0x43300		// Hiword of 2^52 (double).
++  |  slli TMP0, TMP0, 32
++  |  fmv.d.x FARG5, TMP0
++  |  fabs.d FTMP4, FARG1		// |x|
++  |   fmv.x.d TMP1, FARG1
++  |  flt.d TMP0, FTMP4, FARG5
++  |  fadd.d FTMP3, FTMP4, FARG5		// (|x| + 2^52) - 2^52
++  |  fsub.d FTMP3, FTMP3, FARG5
++  |  beqz TMP0, >5			// Truncate only if |x| < 2^52.
++  |  sltz TMP1, TMP1
++  |.if "func" == "ceil"
++  |  lui TMP0, 0xbff00	// Hiword of -1 (double).
++  |.else
++  |  lui TMP0, 0x3ff00	// Hiword of +1 (double).
++  |.endif
++  |.if "func" == "trunc"
++  |  slli TMP0, TMP0, 32
++  |  fmv.d.x FARG5, TMP0
++  |  flt.d TMP0, FTMP4, FRET1	// |x| < result?
++  |  fsub.d FTMP4, FTMP3, FARG5
++  |  beqz TMP0, >1
++  |  fmv.d FTMP1, FTMP4
++  |  j >2
++  |1:
++  |  fmv.d FTMP1, FTMP3
++  |2:
++  |  fneg.d FTMP4, FTMP1
++  |  beqz TMP1, >3
++  |  fmv.d FTMP3, FTMP4
++  |  j >4
++  |3:
++  |  fmv.d FTMP3, FTMP1
++  |4:
++  |  ret
++  |.else
++  |  fneg.d FTMP4, FTMP3
++  |  slli TMP0, TMP0, 32
++  |  fmv.d.x FARG5, TMP0
++  |  beqz TMP1, >1
++  |  fmv.d FTMP1, FTMP4
++  |  j >2
++  |1:
++  |  fmv.d FTMP1, FTMP3
++  |2:
++  |.if "func" == "ceil"
++  |  flt.d TMP0, FTMP1, FARG1	// x > result?
++  |.else
++  |  flt.d TMP0, FARG1, FTMP1	// x < result?
++  |.endif
++  |  beqz TMP0, >3
++  |  fsub.d FTMP4, FTMP1, FARG5		// If yes, subtract +-1.
++  |  fmv.d FRET1, FTMP4
++  |  j >4
++  |3:
++  |  fmv.d FRET1, FTMP1
++  |4:
++  |  ret
++  |.endif
++  |5:
++  |  fmv.d FTMP3, FARG1
++  |  ret
++  |.endmacro
++  |
++  |
++  |->vm_floor:
++  |  vm_round_hf floor
++  |->vm_ceil:
++  |  vm_round_hf ceil
++  |->vm_trunc:
++  |.if JIT
++  |  vm_round_hf trunc
++  |.endif
++  |
++  |
++  |//-----------------------------------------------------------------------
++  |//-- Miscellaneous functions --------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |.define NEXT_TAB,            TAB:CARG1
++  |.define NEXT_IDX,            CARG2
++  |.define NEXT_ASIZE,          CARG3
++  |.define NEXT_NIL,            CARG4
++  |.define NEXT_TMP0,           TMP0
++  |.define NEXT_TMP1,           TMP1
++  |.define NEXT_TMP2,           TMP2
++  |.define NEXT_RES_VK,         CRET1
++  |.define NEXT_RES_IDX,        CRET2
++  |.define NEXT_RES_PTR,        sp
++  |.define NEXT_RES_VAL,        0(sp)
++  |.define NEXT_RES_KEY,        8(sp)
++  |
++  |// TValue *lj_vm_next(GCtab *t, uint32_t idx)
++  |// Next idx returned in CRET2.
++  |->vm_next:
++  |.if JIT
++  |  lw NEXT_ASIZE, NEXT_TAB->asize
++  |  ld NEXT_TMP0, NEXT_TAB->array
++  |  li NEXT_NIL, LJ_TNIL
++  |1:  // Traverse array part.
++  |  bgeu NEXT_IDX, NEXT_ASIZE, >5
++  |  slliw NEXT_TMP1, NEXT_IDX, 3
++  |  add NEXT_TMP1, NEXT_TMP0, NEXT_TMP1
++  |  li TMP3, LJ_TISNUM
++  |  ld NEXT_TMP2, 0(NEXT_TMP1)
++  |  slli TMP3, TMP3, 47
++  |  or NEXT_TMP1, NEXT_IDX, TMP3
++  |  addiw NEXT_IDX, NEXT_IDX, 1
++  |  beq NEXT_TMP2, NEXT_NIL, <1
++  |  sd NEXT_TMP2, NEXT_RES_VAL
++  |  sd NEXT_TMP1, NEXT_RES_KEY
++  |  mv NEXT_RES_VK, NEXT_RES_PTR
++  |  mv NEXT_RES_IDX, NEXT_IDX
++  |  ret
++  |
++  |5:  // Traverse hash part.
++  |  subw NEXT_RES_IDX, NEXT_IDX, NEXT_ASIZE
++  |  lw NEXT_TMP0, NEXT_TAB->hmask
++  |  ld NODE:NEXT_RES_VK, NEXT_TAB->node
++  |  slliw NEXT_TMP2, NEXT_RES_IDX, 5
++  |  slliw TMP3, NEXT_RES_IDX, 3
++  |  subw TMP3, NEXT_TMP2, TMP3
++  |  add NODE:NEXT_RES_VK, NODE:NEXT_RES_VK, TMP3
++  |6:
++  |  bltu NEXT_TMP0, NEXT_RES_IDX, >8
++  |  ld NEXT_TMP2, NODE:NEXT_RES_VK->val
++  |  addiw NEXT_RES_IDX, NEXT_RES_IDX, 1
++  |  bne NEXT_TMP2, NEXT_NIL, >9
++  |  // Skip holes in hash part.
++  |  addi NODE:NEXT_RES_VK, NODE:NEXT_RES_VK, sizeof(Node)
++  |  j <6
++  |
++  |8:  // End of iteration. Set the key to nil (not the value).
++  |  sd NEXT_NIL, NEXT_RES_KEY
++  |  mv NEXT_RES_VK, NEXT_RES_PTR
++  |9:
++  |  addw NEXT_RES_IDX, NEXT_RES_IDX, NEXT_ASIZE
++  |  ret
++  |.endif
++  |
++  |//-----------------------------------------------------------------------
++  |//-- FFI helper functions -----------------------------------------------
++  |//-----------------------------------------------------------------------
++  |
++  |// Handler for callback functions. Callback slot number in x5, g in x7.
++  |->vm_ffi_callback:
++  |.if FFI
++  |.type CTSTATE, CTState, PC
++  |  saveregs
++  |  ld CTSTATE, GL:x7->ctype_state
++  |  mv GL, x7
++  |  addxi DISPATCH, x7, GG_G2DISP
++  |  srli x5, x5, 12
++  |  sw x5, CTSTATE->cb.slot
++  |  load_got lj_ccallback_enter
++  |  sd CARG1, CTSTATE->cb.gpr[0]
++  |  fsd FARG1, CTSTATE->cb.fpr[0]
++  |  sd CARG2, CTSTATE->cb.gpr[1]
++  |  fsd FARG2, CTSTATE->cb.fpr[1]
++  |  sd CARG3, CTSTATE->cb.gpr[2]
++  |  fsd FARG3, CTSTATE->cb.fpr[2]
++  |  sd CARG4, CTSTATE->cb.gpr[3]
++  |  fsd FARG4, CTSTATE->cb.fpr[3]
++  |  sd CARG5, CTSTATE->cb.gpr[4]
++  |  fsd FARG5, CTSTATE->cb.fpr[4]
++  |  sd CARG6, CTSTATE->cb.gpr[5]
++  |  fsd FARG6, CTSTATE->cb.fpr[5]
++  |  sd CARG7, CTSTATE->cb.gpr[6]
++  |  fsd FARG7, CTSTATE->cb.fpr[6]
++  |  sd CARG8, CTSTATE->cb.gpr[7]
++  |  fsd FARG8, CTSTATE->cb.fpr[7]
++  |  addi TMP0, sp, CFRAME_SPACE
++  |  sd TMP0, CTSTATE->cb.stack
++  |  sd x0, SAVE_PC(sp)			// Any value outside of bytecode is ok.
++  |  mv CARG1, CTSTATE
++  |  mv CARG2, sp
++  |  call_intern lj_ccallback_enter	// (CTState *cts, void *cf)
++  |  // Returns lua_State *.
++  |  ld BASE, L:CRET1->base
++  |  ld RC, L:CRET1->top
++  |  mv L, CRET1
++  |  lui TMP3, 0x43380			// TOBIT = Hiword of 2^52 + 2^51 (double).
++  |  ld LFUNC:RB, FRAME_FUNC(BASE)
++  |  li TISNIL, LJ_TNIL
++  |  li TISNUM, LJ_TISNUM
++  |  slli TMP3, TMP3, 32
++  |  li_vmstate INTERP
++  |  subw RC, RC, BASE
++  |  cleartp LFUNC:RB
++  |  st_vmstate
++  |  fmv.d.x TOBIT, TMP3
++  |  ins_callt
++  |.endif
++  |
++  |->cont_ffi_callback:				// Return from FFI callback.
++  |.if FFI
++  |  load_got lj_ccallback_leave
++  |  ld CTSTATE, GL->ctype_state
++  |  sd BASE, L->base
++  |  sd RB, L->top
++  |  sd L, CTSTATE->L
++  |  mv CARG1, CTSTATE
++  |  mv CARG2, RA
++  |  call_intern lj_ccallback_leave	// (CTState *cts, TValue *o)
++  |  fld FRET1, CTSTATE->cb.fpr[0]
++  |  ld CRET1, CTSTATE->cb.gpr[0]
++  |  fld FRET2, CTSTATE->cb.fpr[1]
++  |  ld CRET2, CTSTATE->cb.gpr[1]
++  |  j ->vm_leave_unw
++  |.endif
++  |
++  |->vm_ffi_call:			// Call C function via FFI.
++  |  // Caveat: needs special frame unwinding, see below.
++  |.if FFI
++  |  .type CCSTATE, CCallState, CARG1
++  |  lw TMP1, CCSTATE->spadj
++  |  lbu CARG2, CCSTATE->nsp
++  |  lbu CARG3, CCSTATE->nfpr
++  |  mv TMP2, sp
++  |  sub sp, sp, TMP1
++  |  sd ra, -8(TMP2)
++  |  slliw CARG2, CARG2, 3
++  |  sd x18, -16(TMP2)
++  |  sd CCSTATE, -24(TMP2)
++  |  mv x18, TMP2
++  |  addi TMP1, CCSTATE, offsetof(CCallState, stack)
++  |  mv TMP2, sp
++  |  add TMP3, TMP1, CARG2
++  |  beqz CARG2, >2
++  |1:
++  |  ld TMP0, 0(TMP1)
++  |  addi TMP1, TMP1, 8
++  |  sd TMP0, 0(TMP2)
++  |  addi TMP2, TMP2, 8
++  |  bltu TMP1, TMP3, <1
++  |2:
++  |  beqz CARG3, >3
++  |  fld FARG1, CCSTATE->fpr[0]
++  |  fld FARG2, CCSTATE->fpr[1]
++  |  fld FARG3, CCSTATE->fpr[2]
++  |  fld FARG4, CCSTATE->fpr[3]
++  |  fld FARG5, CCSTATE->fpr[4]
++  |  fld FARG6, CCSTATE->fpr[5]
++  |  fld FARG7, CCSTATE->fpr[6]
++  |  fld FARG8, CCSTATE->fpr[7]
++  |3:
++  |  ld CFUNCADDR, CCSTATE->func
++  |  ld CARG2, CCSTATE->gpr[1]
++  |  ld CARG3, CCSTATE->gpr[2]
++  |  ld CARG4, CCSTATE->gpr[3]
++  |  ld CARG5, CCSTATE->gpr[4]
++  |  ld CARG6, CCSTATE->gpr[5]
++  |  ld CARG7, CCSTATE->gpr[6]
++  |  ld CARG8, CCSTATE->gpr[7]
++  |  ld CARG1, CCSTATE->gpr[0]		// Do this last, since CCSTATE is CARG1.
++  |  jalr CFUNCADDR
++  |  ld CCSTATE:TMP1, -24(x18)
++  |  ld TMP0, -16(x18)
++  |  ld ra, -8(x18)
++  |  sd CRET1, CCSTATE:TMP1->gpr[0]
++  |  sd CRET2, CCSTATE:TMP1->gpr[1]
++  |  fsd FRET1, CCSTATE:TMP1->fpr[0]
++  |  fsd FRET2, CCSTATE:TMP1->fpr[1]
++  |  mv sp, x18
++  |  mv x18, TMP0
++  |  ret
++  |.endif
++  |// Note: vm_ffi_call must be the last function in this object file!
++  |
++  |//-----------------------------------------------------------------------
++}
++
++/* Generate the code for a single instruction. */
++static void build_ins(BuildCtx *ctx, BCOp op, int defop)
++{
++  int vk = 0;
++  |=>defop:
++
++  switch (op) {
++
++  /* -- Comparison ops ---------------------------------------------------- */
++
++  /* Remember: all ops branch for a true comparison, fall through otherwise. */
++
++  case BC_ISLT: case BC_ISGE: case BC_ISLE: case BC_ISGT:
++    |  // RA = src1*8, RD = src2*8, JMP with RD = target
++    |  add RA, BASE, RA
++    |  add RD, BASE, RD
++    if (op == BC_ISLT || op == BC_ISGE) {
++      |  ld CARG1, 0(RA)
++      |   ld CARG2, 0(RD)
++      |  gettp CARG3, CARG1
++      |   gettp CARG4, CARG2
++    } else {
++      |  ld CARG2, 0(RA)
++      |   ld CARG1, 0(RD)
++      |  gettp CARG3, CARG2
++      |   gettp CARG4, CARG1
++    }
++    |  lhu TMP2, OFS_RD(PC)		// TMP2=jump
++    |   addi PC, PC, 4
++    |  bne CARG3, TISNUM, >2
++    |  decode_BC4b TMP2
++    |   bne CARG4, TISNUM, >5
++    |  sext.w CARG1, CARG1
++    |  sext.w CARG2, CARG2
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  slt TMP1, CARG1, CARG2
++    |  addw TMP2, TMP2, TMP3		// TMP2=(jump-0x8000)<<2
++    if (op == BC_ISLT || op == BC_ISGT) {
++      |  neg TMP1, TMP1
++    } else {
++      |  addi TMP1, TMP1, -1
++    }
++    |  and TMP2, TMP2, TMP1
++    |1:
++    |  add PC, PC, TMP2
++    |  ins_next
++    |
++    |2:  // RA is not an integer.
++    |  sltiu TMP1, CARG3, LJ_TISNUM
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  bxeqz TMP1, ->vmeta_comp
++    |  sltiu TMP1, CARG4, LJ_TISNUM
++    |  decode_BC4b TMP2
++    |  beqz TMP1, >4
++    |  fmv.d.x FTMP0, CARG1
++    |  fmv.d.x FTMP2, CARG2
++    |3:  // RA and RD are both numbers.
++    |  addw TMP2, TMP2, TMP3
++    if (op == BC_ISLT) {
++      |  flt.d TMP3, FTMP0, FTMP2
++      |  neg TMP3, TMP3
++    } else if (op == BC_ISGE) {
++      |  flt.d TMP3, FTMP0, FTMP2
++      |  addi TMP3, TMP3, -1
++    } else if (op == BC_ISLE) {
++      |  fle.d TMP3, FTMP2, FTMP0
++      |  neg TMP3, TMP3
++    } else if (op == BC_ISGT) {
++      |  fle.d TMP3, FTMP2, FTMP0
++      |  addi TMP3, TMP3, -1
++    }
++    |  and TMP2, TMP2, TMP3
++    |  j <1
++    |
++    |4:  // RA is a number, RD is not a number.
++    |  // RA is a number, RD is an integer. Convert RD to a number.
++    |  bxne CARG4, TISNUM, ->vmeta_comp
++    if (op == BC_ISLT || op == BC_ISGE) {
++      |  fcvt.d.w FTMP2, CARG2
++      |  fmv.d.x FTMP0, CARG1
++    } else {
++      |  fcvt.d.w FTMP0, CARG1
++      |  fmv.d.x FTMP2, CARG2
++    }
++    |  j <3
++    |
++    |5:  // RA is an integer, RD is not an integer
++    |  sltiu TMP1, CARG4, LJ_TISNUM
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  bxeqz TMP1, ->vmeta_comp
++    |  // RA is an integer, RD is a number. Convert RA to a number.
++    if (op == BC_ISLT || op == BC_ISGE) {
++      |  fcvt.d.w FTMP0, CARG1
++      |  fmv.d.x FTMP2, CARG2
++    } else {
++      |  fcvt.d.w FTMP2, CARG2
++      |  fmv.d.x FTMP0, CARG1
++    }
++    |  j <3
++    break;
++
++  case BC_ISEQV: case BC_ISNEV:
++    vk = op == BC_ISEQV;
++    |  // RA = src1*8, RD = src2*8, JMP with RD = target
++    |  add RA, BASE, RA
++    |   add RD, BASE, RD
++    |    addi PC, PC, 4
++    |  ld CARG1, 0(RA)
++    |   ld CARG2, 0(RD)
++    |    lhu TMP2, -4+OFS_RD(PC)
++    |  gettp CARG3, CARG1
++    |   gettp CARG4, CARG2
++    |  sltu TMP0, TISNUM, CARG3
++    |   sltu TMP1, TISNUM, CARG4
++    |  or TMP0, TMP0, TMP1
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    if (vk) {
++      |  beqz TMP0, ->BC_ISEQN_Z
++    } else {
++      |  beqz TMP0, ->BC_ISNEN_Z
++    }
++    |// Either or both types are not numbers.
++    |.if FFI
++    |  // Check if RA or RD is a cdata.
++    |  xori TMP0, CARG3, LJ_TCDATA
++    |  xori TMP1, CARG4, LJ_TCDATA
++    |  and TMP0, TMP0, TMP1
++    |  bxeqz TMP0, ->vmeta_equal_cd
++    |.endif
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  decode_BC4b TMP2
++    |  addw TMP2, TMP2, TMP3		// (jump-0x8000)<<2
++    |  bne CARG1, CARG2, >2
++    |  // Tag and value are equal.
++    if (vk) {
++      |->BC_ISEQV_Z:
++      |  add PC, PC, TMP2
++    }
++    |1:
++    |  ins_next
++    |
++    |2:  // Check if the tags are the same and it's a table or userdata.
++    |  xor TMP3, CARG3, CARG4			// Same type?
++    |  sltiu TMP0, CARG3, LJ_TISTABUD+1		// Table or userdata? TMP0=1
++    |  beqz TMP3, >3
++    |  mv TMP0, x0		// TMP0=0: not same type, or same type table/userdata
++    |3:
++    |  cleartp TAB:TMP1, CARG1
++    if (vk) {
++      |  beqz TMP0, <1
++    } else {
++      |  beqz TMP0, ->BC_ISEQV_Z  // Reuse code from opposite instruction.
++    }
++    |  // Different tables or userdatas. Need to check __eq metamethod.
++    |  // Field metatable must be at same offset for GCtab and GCudata!
++    |  ld TAB:TMP3, TAB:TMP1->metatable
++    if (vk) {
++      |  beqz TAB:TMP3, <1		// No metatable?
++      |  lbu TMP3, TAB:TMP3->nomm
++      |  andi TMP3, TMP3, 1<<MM_eq
++      |  li TMP0, 0		// ne = 0
++      |  bnez TMP3, <1			// Or 'no __eq' flag set?
++    } else {
++      |  beqz TAB:TMP3,->BC_ISEQV_Z	// No metatable?
++      |  lbu TMP3, TAB:TMP3->nomm
++      |  andi TMP3, TMP3, 1<<MM_eq
++      |  li TMP0, 1		// ne = 1
++      |  bnez TMP3, ->BC_ISEQV_Z	// Or 'no __eq' flag set?
++    }
++    |  j ->vmeta_equal			// Handle __eq metamethod.
++    break;
++
++  case BC_ISEQS: case BC_ISNES:
++    vk = op == BC_ISEQS;
++    |  // RA = src*8, RD = str_const*8 (~), JMP with RD = target
++    |  add RA, BASE, RA
++    |   addi PC, PC, 4
++    |  ld CARG1, 0(RA)
++    |   sub RD, KBASE, RD
++    |    lhu TMP2, -4+OFS_RD(PC)
++    |   ld CARG2, -8(RD)		// KBASE-8-str_const*8
++    |.if FFI
++    |  gettp CARG3, CARG1
++    |  li TMP1, LJ_TCDATA
++    |.endif
++    |  li TMP0, LJ_TSTR
++    |   decode_BC4b TMP2
++    |   settp CARG2, TMP0
++    |   lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |.if FFI
++    |  bxeq CARG3, TMP1, ->vmeta_equal_cd
++    |.endif
++    |  xor TMP0, CARG1, CARG2		// TMP2=0: A==D; TMP2!=0: A!=D
++    |   addw TMP2, TMP2, TMP3
++    if (vk) {
++      |  seqz TMP4, TMP0
++    } else {
++      |  snez TMP4, TMP0
++    }
++    |  neg TMP4, TMP4
++    |  and TMP2, TMP2, TMP4
++    |  add PC, PC, TMP2
++    |  ins_next
++    break;
++
++  case BC_ISEQN: case BC_ISNEN:
++    vk = op == BC_ISEQN;
++    |  // RA = src*8, RD = num_const*8, JMP with RD = target
++    |  add RA, BASE, RA
++    |   add RD, KBASE, RD
++    |  ld CARG1, 0(RA)
++    |   ld CARG2, 0(RD)
++    |    lhu TMP2, OFS_RD(PC)
++    |  gettp CARG3, CARG1
++    |   gettp CARG4, CARG2
++    |    addi PC, PC, 4
++    |    lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    if (vk) {
++      |->BC_ISEQN_Z:
++    } else {
++      |->BC_ISNEN_Z:
++    }
++    |  decode_BC4b TMP2
++    |  bne CARG3, TISNUM, >4
++    |  addw TMP2, TMP2, TMP3
++    |  bne CARG4, TISNUM, >6
++    |  xor TMP0, CARG1, CARG2		// TMP0=0: A==D; TMP0!=0: A!=D
++    |1:
++    if (vk) {
++      |  seqz TMP4, TMP0
++      |  neg TMP4, TMP4
++      |  and TMP2, TMP2, TMP4
++      |  add PC, PC, TMP2
++      |2:
++    } else {
++      |  snez TMP4, TMP0
++      |  neg TMP4, TMP4
++      |  and TMP2, TMP2, TMP4
++      |2:
++      |  add PC, PC, TMP2
++    }
++    |3:
++    |  ins_next
++    |
++    |4:  // RA is not an integer.
++    |    addw TMP2, TMP2, TMP3
++    |.if FFI
++    |  bgeu CARG3, TISNUM, >7
++    |.else
++    |  bgeu CARG3, TISNUM, <2
++    |.endif
++    |  fmv.d.x FTMP0, CARG1
++    |   fmv.d.x FTMP2, CARG2
++    |  bne CARG4, TISNUM, >5
++    |// RA is a number, RD is an integer.
++    |  fcvt.d.w FTMP2, CARG2
++    |
++    |5:  // RA and RD are both numbers.
++    |  feq.d TMP0, FTMP0, FTMP2
++    |  seqz TMP0, TMP0
++    |  j <1
++    |
++    |6: // RA is an integer, RD is a number.
++    |.if FFI
++    |  bgeu CARG4, TISNUM, >8
++    |.else
++    |  bgeu CARG4, TISNUM, <2
++    |.endif
++    |  fcvt.d.w FTMP0, CARG1
++    |   fmv.d.x FTMP2, CARG2
++    |  j <5
++    |
++    |.if FFI
++    |7:	// RA not int, not number
++    |  li TMP0, LJ_TCDATA
++    |  bne CARG3, TMP0, <2
++    |  j ->vmeta_equal_cd
++    |
++    |8:	// RD not int, not number
++    |  li TMP0, LJ_TCDATA
++    |  bne CARG4, TMP0, <2
++    |  j ->vmeta_equal_cd
++    |.endif
++    break;
++
++  case BC_ISEQP: case BC_ISNEP:
++    vk = op == BC_ISEQP;
++    |  // RA = src*8, RD = primitive_type*8 (~), JMP with RD = target
++    |  add RA, BASE, RA
++    |   srliw TMP0, RD, 3
++    |  ld TMP1, 0(RA)
++    |   not TMP0, TMP0		// ~TMP0: ~0 ~1 ~2
++    |    lhu TMP2, OFS_RD(PC)		// TMP2: RD in next INS, branch target
++    |  gettp TMP1, TMP1
++    |    addi PC, PC, 4
++    |   xor TMP0, TMP1, TMP0		// TMP0=0 A=D; TMP0!=0 A!=D
++    |.if FFI
++    |  li TMP3, LJ_TCDATA
++    |  bxeq TMP1, TMP3, ->vmeta_equal_cd
++    |.endif
++    |  decode_BC4b TMP2
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  addw TMP2, TMP2, TMP3		// TMP2=(jump-0x8000)<<2
++    if (vk) {
++      |  seqz TMP4, TMP0
++    } else {
++      |  snez TMP4, TMP0
++    }
++    |  neg TMP4, TMP4
++    |  and TMP2, TMP2, TMP4
++    |  add PC, PC, TMP2
++    |  ins_next
++    break;
++
++  /* -- Unary test and copy ops ------------------------------------------- */
++
++  case BC_ISTC: case BC_ISFC: case BC_IST: case BC_ISF:
++    |  // RA = dst*8 or unused, RD = src*8, JMP with RD = target
++    |  add RD, BASE, RD
++    |   lhu TMP2, OFS_RD(PC)
++    |  ld TMP0, 0(RD)
++    |   addi PC, PC, 4
++    |  gettp TMP0, TMP0
++    |  add RA, BASE, RA
++    |  sltiu TMP0, TMP0, LJ_TISTRUECOND		// TMP0=1 true; TMP0=0 false
++    |  decode_BC4b TMP2
++    |  lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  ld CRET1, 0(RD)
++    |  addw TMP2, TMP2, TMP3		// (jump-0x8000)<<2
++    if (op == BC_IST || op == BC_ISTC) {
++      |  beqz TMP0, >1
++      if (op == BC_ISTC) {
++        |  sd CRET1, 0(RA)
++      }
++    } else {
++      |  bnez TMP0, >1
++      if (op == BC_ISFC) {
++	|  sd CRET1, 0(RA)
++      }
++    }
++    |  add PC, PC, TMP2
++    |1:
++    |  ins_next
++    break;
++
++  case BC_ISTYPE:
++    |  // RA = src*8, RD = -type*8
++    |  add TMP0, BASE, RA
++    |  srliw TMP1, RD, 3
++    |  ld TMP0, 0(TMP0)
++    |  gettp TMP0, TMP0
++    |  add TMP0, TMP0, TMP1		// if itype of RA == type, then TMP0=0
++    |  bxnez TMP0, ->vmeta_istype
++    |  ins_next
++    break;
++  case BC_ISNUM:
++    |  // RA = src*8, RD = -(TISNUM-1)*8
++    |  add TMP0, BASE, RA
++    |  ld TMP0, 0(TMP0)
++    |  checknum TMP0, ->vmeta_istype
++    |  ins_next
++    break;
++
++  /* -- Unary ops --------------------------------------------------------- */
++
++  case BC_MOV:
++    |  // RA = dst*8, RD = src*8
++    |  add RD, BASE, RD
++    |   add RA, BASE, RA
++    |  ld TMP0, 0(RD)
++    |  ins_next1
++    |  sd TMP0, 0(RA)
++    |  ins_next2
++    break;
++  case BC_NOT:
++    |  // RA = dst*8, RD = src*8
++    |  add RD, BASE, RD
++    |   add RA, BASE, RA
++    |  ld TMP0, 0(RD)
++    |   li TMP1, LJ_TTRUE
++    |  ins_next1
++    |  gettp TMP0, TMP0
++    |  sltu TMP0, TMP1, TMP0
++    |  addiw TMP0, TMP0, 1
++    |  slli TMP0, TMP0, 47
++    |  not TMP0, TMP0
++    |   sd TMP0, 0(RA)
++    |  ins_next2
++    break;
++  case BC_UNM:
++    |  // RA = dst*8, RD = src*8
++    |  add RB, BASE, RD
++    |  add RA, BASE, RA
++    |  ld TMP0, 0(RB)
++    |  lui TMP1, 0x80000
++    |  gettp CARG3, TMP0
++    |  bne CARG3, TISNUM, >1
++    |  negw TMP0, TMP0
++    |  bxeq TMP0, TMP1, ->vmeta_unm      // Meta handler deals with -2^31.
++    |  zext.w TMP0, TMP0
++    |  settp TMP0, TISNUM
++    |  j >2
++    |1:
++    |  sltiu TMP3, CARG3, LJ_TISNUM
++    |   slli TMP1, TMP1, 32
++    |  bxeqz TMP3, ->vmeta_unm
++    |   xor TMP0, TMP0, TMP1     // sign => ~sign
++    |2:
++    |   sd TMP0, 0(RA)
++    |  ins_next
++    break;
++  case BC_LEN:
++    |  // RA = dst*8, RD = src*8
++    |  add CARG2, BASE, RD
++    |  ld TMP0, 0(CARG2)
++    |   add RA, BASE, RA
++    |  gettp TMP1, TMP0
++    |  addi TMP2, TMP1, -LJ_TSTR
++    |   cleartp STR:CARG1, TMP0
++    |  bnez TMP2, >2
++    |   lw CARG1, STR:CARG1->len
++    |1:
++    |  settp CARG1, TISNUM
++    |  sd CARG1, 0(RA)
++    |  ins_next
++    |2:
++    |  addi TMP2, TMP1, -LJ_TTAB
++    |  bxnez TMP2, ->vmeta_len
++#if LJ_52
++    |  ld TAB:TMP2, TAB:CARG1->metatable
++    |  bnez TAB:TMP2, >9
++    |3:
++#endif
++    |->BC_LEN_Z:
++    |  jal extern lj_tab_len		// (GCtab *t)
++    |  // Returns uint32_t (but less than 2^31).
++    |  j <1
++#if LJ_52
++    |9:
++    |  lbu TMP0, TAB:TMP2->nomm
++    |  andi TMP0, TMP0, 1<<MM_len
++    |  bnez TMP0, <3			// 'no __len' flag set: done.
++    |  j ->vmeta_len
++#endif
++    break;
++
++  /* -- Binary ops -------------------------------------------------------- */
++
++    |.macro fpmod, a, b, c
++    |  fdiv.d FARG1, b, c
++    |  jal ->vm_floor		// floor(b/c)
++    |  fmul.d a, FRET1, c
++    |  fsub.d a, b, a		// b - floor(b/c)*c
++    |.endmacro
++    |
++    |.macro ins_arithpre
++    ||vk = ((int)op - BC_ADDVN) / (BC_ADDNV-BC_ADDVN);
++    |  // RA = dst*8, RB = src1*8, RC = src2*8 | num_const*8
++    ||if (vk == 1) {
++    |   // RA = dst*8, RB = num_const*8, RC = src1*8
++    |   decode_RB8 RC, INS
++    |   decode_RDtoRC8 RB, RD
++    ||} else {
++    |   // RA = dst*8, RB = src1*8, RC = num_const*8
++    |   decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    ||}
++    ||switch (vk) {
++    ||case 0:			// suffix is VN
++    |   add RB, BASE, RB
++    |   add RC, KBASE, RC
++    ||  break;
++    ||case 1:			// suffix is NV
++    |   add RC, BASE, RC
++    |   add RB, KBASE, RB
++    ||  break;
++    ||default:			// CAT or suffix is VV
++    |   add RB, BASE, RB
++    |   add RC, BASE, RC
++    ||  break;
++    ||}
++    |.endmacro
++    |
++    |.macro ins_arithfp, fpins, itype1, itype2
++    |  fld FTMP0, 0(RB)
++    |  sltu itype1, itype1, TISNUM
++    |  sltu itype2, itype2, TISNUM
++    |  fld FTMP2, 0(RC)
++    |  and itype1, itype1, itype2
++    |  add RA, BASE, RA
++    |  bxeqz itype1, ->vmeta_arith
++    |  fpins FRET1, FTMP0, FTMP2
++    |  ins_next1
++    |  fsd FRET1, 0(RA)
++    |  ins_next2
++    |.endmacro
++    |
++    |.macro ins_arithead, itype1, itype2, tval1, tval2 
++    |  ld tval1, 0(RB)
++    |  ld tval2, 0(RC)
++    |  // Check for two integers.
++    |  gettp itype1, tval1
++    |  gettp itype2, tval2
++    |.endmacro
++    |
++    |.macro ins_arithdn, intins, fpins
++    |  ins_arithpre
++    |  ins_arithead TMP0, TMP1, CARG1, CARG2
++    |  bne TMP0, TISNUM, >1
++    |  bne TMP1, TISNUM, >1
++    |  sext.w CARG3, CARG1
++    |  sext.w CARG4, CARG2
++    |.if "intins" == "addw"
++    |  intins CRET1, CARG3, CARG4
++    |  xor TMP1, CRET1, CARG3		// ((y^a) & (y^b)) < 0: overflow.
++    |  xor TMP2, CRET1, CARG4
++    |  and TMP1, TMP1, TMP2
++    |  add RA, BASE, RA
++    |  bxltz TMP1, ->vmeta_arith
++    |.elif "intins" == "subw"
++    |  intins CRET1, CARG3, CARG4
++    |  xor TMP1, CRET1, CARG3		// ((y^a) & (a^b)) < 0: overflow.
++    |  xor TMP2, CARG3, CARG4
++    |  and TMP1, TMP1, TMP2
++    |  add RA, BASE, RA
++    |  bxltz TMP1, ->vmeta_arith
++    |.elif "intins" == "mulw"
++    |  mul TMP2, CARG3, CARG4
++    |  add RA, BASE, RA
++    |  sext.w CRET1, TMP2
++    |  bxne CRET1, TMP2, ->vmeta_arith		// 63-32bit not all 0 or 1: overflow.
++    |.endif
++    |  zext.w CRET1, CRET1
++    |  settp CRET1, TISNUM
++    |  sd CRET1, 0(RA)
++    |  ins_next
++    |1:  // Check for two numbers.
++    |  ins_arithfp, fpins, TMP0, TMP1
++    |.endmacro
++    |
++    |.macro ins_arithdiv, fpins
++    |  ins_arithpre
++    |  ins_arithead TMP0, TMP1, CARG1, CARG2
++    |  ins_arithfp, fpins, TMP0, TMP1
++    |.endmacro
++    |
++    |.macro ins_arithmod, fpins
++    |  ins_arithpre
++    |  ins_arithead TMP0, TMP1, CARG1, CARG2
++    |  bne TMP0, TISNUM, >1
++    |  bne TMP1, TISNUM, >1
++    |  sext.w CARG1, CARG1
++    |  sext.w CARG2, CARG2
++    |  add RA, BASE, RA
++    |  bxeqz CARG2, ->vmeta_arith
++    |  jal extern lj_vm_modi
++    |  zext.w CRET1, CRET1
++    |  settp CRET1, TISNUM
++    |  sd CRET1, 0(RA)
++    |  ins_next
++    |1:  // Check for two numbers.
++    |  ins_arithfp, fpins, TMP0, TMP1
++    |.endmacro
++    
++  case BC_ADDVN: case BC_ADDNV: case BC_ADDVV:
++    |  ins_arithdn addw, fadd.d
++    break;
++  case BC_SUBVN: case BC_SUBNV: case BC_SUBVV:
++    |  ins_arithdn subw, fsub.d
++    break;
++  case BC_MULVN: case BC_MULNV: case BC_MULVV:
++    |  ins_arithdn mulw, fmul.d
++    break;
++  case BC_DIVVN: case BC_DIVNV: case BC_DIVVV:
++    |  ins_arithdiv fdiv.d
++    break;
++  case BC_MODVN: case BC_MODNV: case BC_MODVV:
++    |  ins_arithmod fpmod
++    break;
++  case BC_POW:
++    |  ins_arithpre
++    |  ld CARG1, 0(RB)
++    |   ld CARG2, 0(RC)
++    |  gettp TMP0, CARG1
++    |   gettp TMP1, CARG2
++    |  sltiu TMP0, TMP0, LJ_TISNUM
++    |   sltiu TMP1, TMP1, LJ_TISNUM
++    |  and TMP0, TMP0, TMP1
++    |   add RA, BASE, RA
++    |  load_got pow
++    |  bxeqz TMP0, ->vmeta_arith
++    |  fld FARG1, 0(RB)
++    |  fld FARG2, 0(RC)
++    |  call_extern
++    |  ins_next1
++    |  fsd FRET1, 0(RA)
++    |  ins_next2
++    break;
++
++  case BC_CAT:
++    |  // RA = dst*8, RB = src_start*8, RC = src_end*8
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  sub CARG3, RC, RB
++    |   sd BASE, L->base
++    |  add CARG2, BASE, RC
++    |  mv MULTRES, RB
++    |->BC_CAT_Z:
++    |  srliw CARG3, CARG3, 3
++    |   sd PC, SAVE_PC(sp)
++    |   mv CARG1, L
++    |  jal extern lj_meta_cat		// (lua_State *L, TValue *top, int left)
++    |  // Returns NULL (finished) or TValue * (metamethod).
++    |   ld BASE, L->base
++    |  bxnez CRET1, ->vmeta_binop
++    |  add RB, BASE, MULTRES
++    |  ld TMP0, 0(RB)
++    |   add RA, BASE, RA
++    |  sd TMP0, 0(RA)
++    |  ins_next
++    break;
++
++  /* -- Constant ops ------------------------------------------------------ */
++
++  case BC_KSTR:
++    |  // RA = dst*8, RD = str_const*8 (~)
++    |  sub TMP1, KBASE, RD
++    |   li TMP2, LJ_TSTR
++    |  ld TMP0, -8(TMP1)		// KBASE-8-str_const*8
++    |  add RA, BASE, RA
++    |   settp TMP0, TMP2
++    |  sd TMP0, 0(RA)
++    |  ins_next
++    break;
++  case BC_KCDATA:
++    |.if FFI
++    |  // RA = dst*8, RD = cdata_const*8 (~)
++    |  sub TMP1, KBASE, RD
++    |  ld TMP0, -8(TMP1)		// KBASE-8-cdata_const*8
++    |   li TMP2, LJ_TCDATA
++    |  add RA, BASE, RA
++    |   settp TMP0, TMP2
++    |  sd TMP0, 0(RA)
++    |  ins_next
++    |.endif
++    break;
++  case BC_KSHORT:
++    |  // RA = dst*8, RD = int16_literal*8
++    |   sraiw RD, INS, 16
++    |  add RA, BASE, RA
++    |   zext.w RD, RD
++    |  ins_next1
++    |   settp RD, TISNUM
++    |   sd RD, 0(RA)
++    |  ins_next2
++    break;
++  case BC_KNUM:
++    |  // RA = dst*8, RD = num_const*8
++    |  add RD, KBASE, RD
++    |   add RA, BASE, RA
++    |  ld TMP0, 0(RD)
++    |  ins_next1
++    |  sd TMP0, 0(RA)
++    |  ins_next2
++    break;
++  case BC_KPRI:
++    |  // RA = dst*8, RD = primitive_type*8 (~)
++    |   add RA, BASE, RA
++    |  slli TMP0, RD, 44	// 44+3
++    |  not TMP0, TMP0
++    |  ins_next1
++    |   sd TMP0, 0(RA)
++    |  ins_next2
++    break;
++  case BC_KNIL:
++    |  // RA = base*8, RD = end*8
++    |  add RA, BASE, RA
++    |  sd TISNIL, 0(RA)
++    |   addi RA, RA, 8
++    |  add RD, BASE, RD
++    |1:
++    |  sd TISNIL, 0(RA)
++    |  slt TMP0, RA, RD
++    |   addi RA, RA, 8
++    |  bnez TMP0, <1
++    |  ins_next
++    break;
++
++  /* -- Upvalue and function ops ------------------------------------------ */
++
++  case BC_UGET:
++    |  // RA = dst*8, RD = uvnum*8
++    |  ld LFUNC:TMP0, FRAME_FUNC(BASE)
++    |   add RA, BASE, RA
++    |  cleartp LFUNC:TMP0
++    |  add RD, RD, LFUNC:TMP0
++    |  ld UPVAL:TMP0, LFUNC:RD->uvptr
++    |  ld TMP1, UPVAL:TMP0->v
++    |  ld TMP2, 0(TMP1)
++    |  ins_next1
++    |   sd TMP2, 0(RA)
++    |  ins_next2
++    break;
++  case BC_USETV:
++    |  // RA = uvnum*8, RD = src*8
++    |  ld LFUNC:TMP0, FRAME_FUNC(BASE)
++    |   add RD, BASE, RD
++    |  cleartp LFUNC:TMP0
++    |  add RA, RA, LFUNC:TMP0
++    |  ld UPVAL:TMP0, LFUNC:RA->uvptr
++    |   ld CRET1, 0(RD)
++    |  lbu TMP3, UPVAL:TMP0->marked
++    |   ld CARG2, UPVAL:TMP0->v
++    |  andi TMP3, TMP3, LJ_GC_BLACK	// isblack(uv)
++    |  lbu TMP0, UPVAL:TMP0->closed
++    |   gettp TMP2, CRET1
++    |   sd CRET1, 0(CARG2)
++    |  or TMP3, TMP3, TMP0
++    |  li TMP0, LJ_GC_BLACK|1
++    |   addi TMP2, TMP2, -(LJ_TNUMX+1)
++    |  beq TMP3, TMP0, >2			// Upvalue is closed and black?
++    |1:
++    |  ins_next
++    |
++    |2:  // Check if new value is collectable.
++    |  sltiu TMP0, TMP2, LJ_TISGCV - (LJ_TNUMX+1)
++    |   cleartp GCOBJ:CRET1, CRET1
++    |  beqz TMP0, <1			// tvisgcv(v)
++    |  lbu TMP3, GCOBJ:CRET1->gch.marked
++    |  andi TMP3, TMP3, LJ_GC_WHITES	// iswhite(v)
++    |  beqz TMP3, <1
++    |  // Crossed a write barrier. Move the barrier forward.
++    |  mv CARG1, GL
++    |  jal extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
++    |  j <1
++    break;
++  case BC_USETS:
++    |  // RA = uvnum*8, RD = str_const*8 (~)
++    |  ld LFUNC:TMP0, FRAME_FUNC(BASE)
++    |   sub TMP1, KBASE, RD
++    |  cleartp LFUNC:TMP0
++    |  add RA, RA, LFUNC:TMP0
++    |  ld UPVAL:TMP0, LFUNC:RA->uvptr
++    |   ld STR:TMP1, -8(TMP1)		// KBASE-8-str_const*8
++    |  lbu TMP2, UPVAL:TMP0->marked
++    |   ld CARG2, UPVAL:TMP0->v
++    |   lbu TMP3, STR:TMP1->marked
++    |  andi TMP4, TMP2, LJ_GC_BLACK	// isblack(uv)
++    |   lbu TMP2, UPVAL:TMP0->closed
++    |   li TMP0, LJ_TSTR
++    |   settp TMP1, TMP0
++    |  sd TMP1, 0(CARG2)
++    |   bnez TMP4, >2
++    |1:
++    |  ins_next
++    |
++    |2:  // Check if string is white and ensure upvalue is closed.
++    |  beqz TMP2, <1
++    |   andi TMP0, TMP3, LJ_GC_WHITES     // iswhite(str)
++    |  beqz TMP0, <1
++    |  // Crossed a write barrier. Move the barrier forward.
++    |  mv CARG1, GL
++    |  jal extern lj_gc_barrieruv	// (global_State *g, TValue *tv)
++    |  j <1
++    break;
++  case BC_USETN:
++    |  // RA = uvnum*8, RD = num_const*8
++    |  ld LFUNC:TMP0, FRAME_FUNC(BASE)
++    |   add RD, KBASE, RD
++    |  cleartp LFUNC:TMP0
++    |  add TMP0, RA, LFUNC:TMP0
++    |  ld UPVAL:TMP0, LFUNC:TMP0->uvptr
++    |   ld TMP1, 0(RD)
++    |  ld TMP0, UPVAL:TMP0->v
++    |   sd TMP1, 0(TMP0)
++    |  ins_next
++    break;
++  case BC_USETP:
++    |  // RA = uvnum*8, RD = primitive_type*8 (~)
++    |  ld LFUNC:TMP0, FRAME_FUNC(BASE)
++    |   slli TMP2, RD, 44
++    |  cleartp LFUNC:TMP0
++    |  add TMP0, RA, LFUNC:TMP0
++    |   not TMP2, TMP2
++    |  ld UPVAL:TMP0, LFUNC:TMP0->uvptr
++    |  ld TMP1, UPVAL:TMP0->v
++    |   sd TMP2, 0(TMP1)
++    |  ins_next
++    break;
++
++  case BC_UCLO:
++    |  // RA = level*8, RD = target
++    |  ld TMP2, L->openupval
++    |  branch_RD			// Do this first since RD is not saved.
++    |   sd BASE, L->base
++    |   mv CARG1, L
++    |  beqz TMP2, >1
++    |   add CARG2, BASE, RA
++    |  jal extern lj_func_closeuv	// (lua_State *L, TValue *level)
++    |  ld BASE, L->base
++    |1:
++    |  ins_next
++    break;
++
++  case BC_FNEW:
++    |  // RA = dst*8, RD = proto_const*8 (~) (holding function prototype)
++    |  sub TMP1, KBASE, RD
++    |  ld CARG3, FRAME_FUNC(BASE)
++    |   ld CARG2, -8(TMP1)		// KBASE-8-tab_const*8
++    |    sd BASE, L->base
++    |    sd PC, SAVE_PC(sp)
++    |  cleartp CARG3
++    |   mv CARG1, L
++    |  // (lua_State *L, GCproto *pt, GCfuncL *parent)
++    |  jal extern lj_func_newL_gc
++    |  // Returns GCfuncL *.
++    |   li TMP0, LJ_TFUNC
++    |  ld BASE, L->base
++    |   settp CRET1, TMP0
++    |  add RA, BASE, RA
++    |   sd CRET1, 0(RA)
++    |  ins_next
++    break;
++
++  /* -- Table ops --------------------------------------------------------- */
++
++  case BC_TNEW:
++  case BC_TDUP:
++    |  // RA = dst*8, RD = (hbits|asize)*8 | tab_const*8 (~)
++    |  ld TMP0, GL->gc.total
++    |  ld TMP1, GL->gc.threshold
++    |   sd BASE, L->base
++    |   sd PC, SAVE_PC(sp)
++    |  bgeu TMP0, TMP1, >5
++    |1:
++    if (op == BC_TNEW) {
++      |  srliw CARG2, RD, 3
++      |  andi CARG2, CARG2, 0x7ff
++      |  lzi TMP0, 0x801
++      |  addiw TMP2, CARG2, -0x7ff
++      |   srliw CARG3, RD, 14
++      |  seqz TMP4, TMP2
++      |  neg TMP4, TMP4
++      |  and TMP0, TMP0, TMP4
++      |  not TMP4, TMP4
++      |  and CARG2, CARG2, TMP4
++      |  or CARG2, CARG2, TMP0
++      |  // (lua_State *L, int32_t asize, uint32_t hbits)
++      |   mv CARG1, L
++      |  jal extern lj_tab_new
++      |  // Returns Table *.
++    } else {
++      |  sub TMP1, KBASE, RD
++      |  mv CARG1, L
++      |   ld CARG2, -8(TMP1)            // KBASE-8-str_const*8
++      |  jal extern lj_tab_dup		// (lua_State *L, Table *kt)
++      |  // Returns Table *.
++    }
++    |   li TMP0, LJ_TTAB
++    |  ld BASE, L->base
++    |  ins_next1
++    |   settp CRET1, TMP0
++    |  add RA, BASE, RA
++    |   sd CRET1, 0(RA)
++    |  ins_next2
++    |5:
++    |  mv MULTRES, RD
++    |   mv CARG1, L
++    |  jal extern lj_gc_step_fixtop	// (lua_State *L)
++    |   mv RD, MULTRES
++    |  j <1
++    break;
++
++  case BC_GGET:
++    |  // RA = dst*8, RD = str_const*8 (~)
++  case BC_GSET:
++    |  // RA = src*8, RD = str_const*8 (~)
++    |  ld LFUNC:TMP0, FRAME_FUNC(BASE)
++    |   sub TMP1, KBASE, RD
++    |   ld STR:RC, -8(TMP1)	// KBASE-8-str_const*8
++    |  cleartp LFUNC:TMP0
++    |  ld TAB:RB, LFUNC:TMP0->env
++    |  add RA, BASE, RA
++    if (op == BC_GGET) {
++      |  j ->BC_TGETS_Z
++    } else {
++      |  j ->BC_TSETS_Z
++    }
++    break;
++
++  case BC_TGETV:
++    |  // RA = dst*8, RB = table*8, RC = key*8
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add CARG2, BASE, RB
++    |   add CARG3, BASE, RC
++    |  ld TAB:RB, 0(CARG2)
++    |   ld TMP2, 0(CARG3)
++    |   add RA, BASE, RA
++    |  checktab TAB:RB, ->vmeta_tgetv
++    |   gettp TMP3, TMP2
++    |   lw TMP0, TAB:RB->asize
++    |  bne TMP3, TISNUM, >5		// Integer key?
++    |  sext.w TMP2, TMP2
++    |   ld TMP1, TAB:RB->array
++    |  bxgeu TMP2, TMP0, ->vmeta_tgetv	// Integer key and in array part? (keys = [0, asize-1])
++    |   slliw TMP2, TMP2, 3
++    |   add TMP2, TMP1, TMP2
++    |   ld CRET1, 0(TMP2)
++    |  beq CRET1, TISNIL, >2
++    |1:
++    |   sd CRET1, 0(RA)
++    |  ins_next
++    |
++    |2:  // Check for __index if table value is nil.
++    |  ld TAB:TMP2, TAB:RB->metatable
++    |  beqz TAB:TMP2, <1		// No metatable: done.
++    |  lbu TMP0, TAB:TMP2->nomm
++    |  andi TMP0, TMP0, 1<<MM_index
++    |  bnez TMP0, <1			// 'no __index' flag set: done.
++    |  j ->vmeta_tgetv
++    |
++    |5:
++    |  li TMP0, LJ_TSTR
++    |   cleartp RC, TMP2
++    |  bxne TMP3, TMP0, ->vmeta_tgetv	// String key?
++    |  j ->BC_TGETS_Z
++    break;
++  case BC_TGETS:
++    |  // RA = dst*8, RB = table*8, RC = str_const*8 (~)
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add CARG2, BASE, RB
++    |   sub CARG3, KBASE, RC
++    |  ld TAB:RB, 0(CARG2)
++    |  add RA, BASE, RA
++    |   ld STR:RC, -8(CARG3)		// KBASE-8-str_const*8
++    |  checktab TAB:RB, ->vmeta_tgets1
++    |->BC_TGETS_Z:
++    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = dst*8
++    |  lw TMP0, TAB:RB->hmask
++    |   lw TMP1, STR:RC->sid
++    |    ld NODE:TMP2, TAB:RB->node
++    |  and TMP1, TMP1, TMP0		// idx = str->sid & tab->hmask
++    |  slliw TMP0, TMP1, 5
++    |  slliw TMP1, TMP1, 3
++    |  subw TMP1, TMP0, TMP1
++    |   li TMP3, LJ_TSTR
++    |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
++    |   settp STR:RC, TMP3		// Tagged key to look for.
++    |1:
++    |  ld CARG1, NODE:TMP2->key
++    |   ld CARG2, NODE:TMP2->val
++    |    ld NODE:TMP1, NODE:TMP2->next
++    |   ld TAB:TMP3, TAB:RB->metatable
++    |  bne CARG1, RC, >4
++    |  beq CARG2, TISNIL, >5		// Key found, but nil value?
++    |3:
++    |   sd CARG2, 0(RA)
++    |  ins_next
++    |
++    |4:  // Follow hash chain.
++    |   mv NODE:TMP2, NODE:TMP1
++    |  bnez NODE:TMP1, <1
++    |  // End of hash chain: key not found, nil result.
++    |
++    |5:  // Check for __index if table value is nil.
++    |   mv CARG2, TISNIL
++    |  beqz TAB:TMP3, <3		// No metatable: done.
++    |  lbu TMP0, TAB:TMP3->nomm
++    |  andi TMP0, TMP0, 1<<MM_index
++    |  bnez TMP0, <3			// 'no __index' flag set: done.
++    |  j ->vmeta_tgets
++    break;
++  case BC_TGETB:
++    |  // RA = dst*8, RB = table*8, RC = index*8
++    |  decode_RB8 RB, INS
++    |  add CARG2, BASE, RB
++    |   decode_RDtoRC8 RC, RD
++    |  ld TAB:RB, 0(CARG2)
++    |   add RA, BASE, RA
++    |  srliw TMP0, RC, 3
++    |  checktab TAB:RB, ->vmeta_tgetb
++    |  lw TMP1, TAB:RB->asize
++    |   ld TMP2, TAB:RB->array
++    |  bxgeu TMP0, TMP1, ->vmeta_tgetb
++    |   add RC, TMP2, RC
++    |   ld CRET1, 0(RC)
++    |  beq CRET1, TISNIL, >5
++    |1:
++    |   sd CRET1, 0(RA)
++    |  ins_next
++    |
++    |5:  // Check for __index if table value is nil.
++    |  ld TAB:TMP2, TAB:RB->metatable
++    |  beqz TAB:TMP2, <1		// No metatable: done.
++    |  lbu TMP1, TAB:TMP2->nomm
++    |  andi TMP1, TMP1, 1<<MM_index
++    |  bnez TMP1, <1			// 'no __index' flag set: done.
++    |  j ->vmeta_tgetb			// Caveat: preserve TMP0 and CARG2!
++    break;
++  case BC_TGETR:
++    |  // RA = dst*8, RB = table*8, RC = key*8
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add RB, BASE, RB
++    |   add RC, BASE, RC
++    |  ld TAB:CARG1, 0(RB)
++    |   lw CARG2, 0(RC)
++    |    add RA, BASE, RA
++    |  cleartp TAB:CARG1
++    |  lw TMP0, TAB:CARG1->asize
++    |   ld TMP1, TAB:CARG1->array
++    |  bxgeu CARG2, TMP0, ->vmeta_tgetr		// In array part?
++    |   slliw TMP2, CARG2, 3
++    |   add TMP3, TMP1, TMP2
++    |   ld TMP1, 0(TMP3)
++    |->BC_TGETR_Z:
++    |  ins_next1
++    |   sd TMP1, 0(RA)
++    |  ins_next2
++    break;
++
++  case BC_TSETV:
++    |  // RA = src*8, RB = table*8, RC = key*8
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add CARG2, BASE, RB
++    |   add CARG3, BASE, RC
++    |  ld TAB:RB, 0(CARG2)
++    |   ld TMP2, 0(CARG3)
++    |  add RA, BASE, RA
++    |  checktab TAB:RB, ->vmeta_tsetv
++    |   sext.w RC, TMP2
++    |  checkint TMP2, >5
++    |  lw TMP0, TAB:RB->asize
++    |   ld TMP1, TAB:RB->array
++    |  bxgeu RC, TMP0, ->vmeta_tsetv		// Integer key and in array part?
++    |   slliw TMP2, RC, 3
++    |  add TMP1, TMP1, TMP2
++    |   lbu TMP3, TAB:RB->marked
++    |  ld TMP0, 0(TMP1)
++    |   ld CRET1, 0(RA)
++    |  beq TMP0, TISNIL, >3
++    |1:
++    |   andi TMP2, TMP3, LJ_GC_BLACK	// isblack(table)
++    |   sd CRET1, 0(TMP1)
++    |  bnez TMP2, >7
++    |2:
++    |  ins_next
++    |
++    |3:  // Check for __newindex if previous value is nil.
++    |  ld TAB:TMP2, TAB:RB->metatable
++    |  beqz TAB:TMP2, <1		// No metatable: done.
++    |  lbu TMP2, TAB:TMP2->nomm
++    |  andi TMP2, TMP2, 1<<MM_newindex
++    |  bnez TMP2, <1			// 'no __newindex' flag set: done.
++    |  j ->vmeta_tsetv
++    |5:
++    |  gettp TMP0, TMP2
++    |  addi TMP0, TMP0, -LJ_TSTR
++    |  bxnez TMP0, ->vmeta_tsetv
++    |  cleartp STR:RC, TMP2
++    |  j ->BC_TSETS_Z			// String key?
++    |
++    |7:  // Possible table write barrier for the value. Skip valiswhite check.
++    |  barrierback TAB:RB, TMP3, TMP0, <2
++    break;
++  case BC_TSETS:
++    |  // RA = src*8, RB = table*8, RC = str_const*8 (~)
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add CARG2, BASE, RB
++    |   sub CARG3, KBASE, RC
++    |    ld TAB:RB, 0(CARG2)
++    |   ld RC, -8(CARG3)		// KBASE-8-str_const*8
++    |  add RA, BASE, RA
++    |   cleartp STR:RC
++    |  checktab TAB:RB, ->vmeta_tsets1
++    |->BC_TSETS_Z:
++    |  // TAB:RB = GCtab *, STR:RC = GCstr *, RA = BASE+src*8
++    |  lw TMP0, TAB:RB->hmask
++    |   lw TMP1, STR:RC->sid
++    |    ld NODE:TMP2, TAB:RB->node
++    |   sb x0, TAB:RB->nomm		// Clear metamethod cache.
++    |  and TMP1, TMP1, TMP0		// idx = str->sid & tab->hmask
++    |  slliw TMP0, TMP1, 5
++    |  slliw TMP1, TMP1, 3
++    |  subw TMP1, TMP0, TMP1
++    |   li TMP3, LJ_TSTR
++    |  add NODE:TMP2, NODE:TMP2, TMP1	// node = tab->node + (idx*32-idx*8)
++    |   settp STR:RC, TMP3		// Tagged key to look for.
++    |  fld FTMP0, 0(RA)
++    |1:
++    |  ld TMP0, NODE:TMP2->key
++    |   ld CARG2, NODE:TMP2->val
++    |    ld NODE:TMP1, NODE:TMP2->next
++    |     lbu TMP3, TAB:RB->marked
++    |  bne TMP0, RC, >5
++    |    ld TAB:TMP0, TAB:RB->metatable
++    |   beq CARG2, TISNIL, >4		// Key found, but nil value?
++    |2:
++    |  andi TMP3, TMP3, LJ_GC_BLACK	// isblack(table)
++    |   fsd FTMP0, NODE:TMP2->val
++    |  bnez TMP3, >7
++    |3:
++    |  ins_next
++    |
++    |4:  // Check for __newindex if previous value is nil.
++    |  beqz TAB:TMP0, <2		// No metatable: done.
++    |  lbu TMP0, TAB:TMP0->nomm
++    |  andi TMP0, TMP0, 1<<MM_newindex
++    |  bnez TMP0, <2			// 'no __newindex' flag set: done.
++    |  j ->vmeta_tsets
++    |
++    |5:  // Follow hash chain.
++    |   mv NODE:TMP2, NODE:TMP1
++    |  bnez NODE:TMP1, <1
++    |  // End of hash chain: key not found, add a new one
++    |
++    |  // But check for __newindex first.
++    |  ld TAB:TMP2, TAB:RB->metatable
++    |   addi CARG3, GL, offsetof(global_State, tmptv)
++    |  beqz TAB:TMP2, >6		// No metatable: continue.
++    |  lbu TMP0, TAB:TMP2->nomm
++    |  andi TMP0, TMP0, 1<<MM_newindex
++    |  bxeqz TMP0, ->vmeta_tsets		// 'no __newindex' flag NOT set: check.
++    |6:
++    |  sd RC, 0(CARG3)
++    |   sd BASE, L->base
++    |  mv CARG2, TAB:RB
++    |   sd PC, SAVE_PC(sp)
++    |   mv CARG1, L
++    |  jal extern lj_tab_newkey	// (lua_State *L, GCtab *t, TValue *k
++    |  // Returns TValue *.
++    |  ld BASE, L->base
++    |   fsd FTMP0, 0(CRET1)
++    |  j <3				// No 2nd write barrier needed.
++    |
++    |7:  // Possible table write barrier for the value. Skip valiswhite check.
++    |  barrierback TAB:RB, TMP3, TMP0, <3
++    break;
++  case BC_TSETB:
++    |  // RA = src*8, RB = table*8, RC = index*8
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add CARG2, BASE, RB
++    |   add RA, BASE, RA
++    |  ld TAB:RB, 0(CARG2)
++    |  srliw TMP0, RC, 3
++    |  checktab RB, ->vmeta_tsetb
++    |  lw TMP1, TAB:RB->asize
++    |   ld TMP2, TAB:RB->array
++    |  bxgeu TMP0, TMP1, ->vmeta_tsetb
++    |   add RC, TMP2, RC
++    |  ld TMP1, 0(RC)
++    |   lbu TMP3, TAB:RB->marked
++    |  beq TMP1, TISNIL, >5
++    |1:
++    |   ld CRET1, 0(RA)
++    |  andi TMP1, TMP3, LJ_GC_BLACK	// isblack(table)
++    |    sd CRET1, 0(RC)
++    |  bnez TMP1, >7
++    |2:
++    |  ins_next
++    |
++    |5:  // Check for __newindex if previous value is nil.
++    |  ld TAB:TMP2, TAB:RB->metatable
++    |  beqz TAB:TMP2, <1		// No metatable: done.
++    |  lbu TMP1, TAB:TMP2->nomm
++    |  andi TMP1, TMP1, 1<<MM_newindex
++    |  bnez TMP1, <1			// 'no __newindex' flag set: done.
++    |  j ->vmeta_tsetb	// Caveat: preserve TMP0 and CARG2!
++    |
++    |7:  // Possible table write barrier for the value. Skip valiswhite check.
++    |  barrierback TAB:RB, TMP3, TMP0, <2
++    break;
++  case BC_TSETR:
++    |  // RA = dst*8, RB = table*8, RC = key*8
++    |  decode_RB8 RB, INS
++    |   decode_RDtoRC8 RC, RD
++    |  add CARG1, BASE, RB
++    |   add CARG3, BASE, RC
++    |  ld TAB:CARG2, 0(CARG1)
++    |   lw CARG3, 0(CARG3)
++    |  cleartp TAB:CARG2
++    |  lbu TMP3, TAB:CARG2->marked
++    |   lw TMP0, TAB:CARG2->asize
++    |    ld TMP1, TAB:CARG2->array
++    |  andi TMP2, TMP3, LJ_GC_BLACK	// isblack(table)
++    |   add RA, BASE, RA
++    |  bnez TMP2, >7
++    |2:
++    |  bxgeu CARG3, TMP0, ->vmeta_tsetr		// In array part?
++    |   slliw TMP2, CARG3, 3
++    |   add CRET1, TMP1, TMP2
++    |->BC_TSETR_Z:
++    |  ld TMP1, 0(RA)
++    |  ins_next1
++    |  sd TMP1, 0(CRET1)
++    |  ins_next2
++    |
++    |7:  // Possible table write barrier for the value. Skip valiswhite check.
++    |  barrierback TAB:CARG2, TMP3, CRET1, <2
++    break;
++
++  case BC_TSETM:
++    |  // RA = base*8 (table at base-1), RD = num_const*8 (start index)
++    |  add RA, BASE, RA
++    |1:
++    |   add TMP3, KBASE, RD
++    |  ld TAB:CARG2, -8(RA)		// Guaranteed to be a table.
++    |    addiw TMP0, MULTRES, -8
++    |   lw TMP3, 0(TMP3)		// Integer constant is in lo-word.
++    |   srliw CARG3, TMP0, 3
++    |    beqz TMP0, >4			// Nothing to copy?
++    |  cleartp TAB:CARG2
++    |  addw CARG3, CARG3, TMP3
++    |  lw TMP2, TAB:CARG2->asize
++    |   slliw TMP1, TMP3, 3
++    |    lbu TMP3, TAB:CARG2->marked
++    |   ld CARG1, TAB:CARG2->array
++    |  bltu TMP2, CARG3, >5
++    |   add TMP2, RA, TMP0
++    |   add TMP1, TMP1, CARG1
++    |  andi TMP0, TMP3, LJ_GC_BLACK	// isblack(table)
++    |3:  // Copy result slots to table.
++    |   ld CRET1, 0(RA)
++    |    addi RA, RA, 8
++    |   sd CRET1, 0(TMP1)
++    |    addi TMP1, TMP1, 8
++    |  bltu RA, TMP2, <3
++    |  bnez TMP0, >7
++    |4:
++    |  ins_next
++    |
++    |5:  // Need to resize array part.
++    |   sd BASE, L->base
++    |   sd PC, SAVE_PC(sp)
++    |  mv BASE, RD
++    |   mv CARG1, L
++    |  jal extern lj_tab_reasize		// (lua_State *L, GCtab *t, int nasize)
++    |  // Must not reallocate the stack.
++    |  mv RD, BASE
++    |   ld BASE, L->base        // Reload BASE for lack of a saved register.
++    |  j <1
++    |
++    |7:  // Possible table write barrier for any value. Skip valiswhite check.
++    |  barrierback TAB:CARG2, TMP3, TMP0, <4
++    break;
++
++  /* -- Calls and vararg handling ----------------------------------------- */
++
++  case BC_CALLM:
++    |  // RA = base*8, (RB = (nresults+1)*8,) RC = extra_nargs*8
++    |  decode_RDtoRC8 NARGS8:RC, RD
++    |   addw NARGS8:RC, NARGS8:RC, MULTRES
++    |  j ->BC_CALL_Z
++    break;
++  case BC_CALL:
++    |  // RA = base*8, (RB = (nresults+1)*8,) RC = (nargs+1)*8
++    |  decode_RDtoRC8 NARGS8:RC, RD
++    |->BC_CALL_Z:
++    |  mv TMP2, BASE
++    |  add BASE, BASE, RA
++    |   ld LFUNC:RB, 0(BASE)
++    |   addi BASE, BASE, 16
++    |  addiw NARGS8:RC, NARGS8:RC, -8
++    |  checkfunc RB, ->vmeta_call
++    |  ins_call
++    break;
++
++  case BC_CALLMT:
++    |  // RA = base*8, (RB = 0,) RC = extra_nargs*8
++    |  addw NARGS8:RD, NARGS8:RD, MULTRES
++    |  j ->BC_CALLT_Z1
++    break;
++  case BC_CALLT:
++    |  // RA = base*8, (RB = 0,) RC = (nargs+1)*8
++    |->BC_CALLT_Z1:
++    |  add RA, BASE, RA
++    |  ld LFUNC:RB, 0(RA)
++    |   mv NARGS8:RC, RD
++    |    ld TMP1, FRAME_PC(BASE)
++    |   addi RA, RA, 16
++    |  addiw NARGS8:RC, NARGS8:RC, -8
++    |  checktp CARG3, LFUNC:RB, -LJ_TFUNC, ->vmeta_callt
++    |->BC_CALLT_Z:
++    |  andi TMP0, TMP1, FRAME_TYPE	// Caveat: preserve TMP0 until the 'or'.
++    |   lbu TMP3, LFUNC:CARG3->ffid
++    |   xori TMP2, TMP1, FRAME_VARG
++    |  bnez TMP0, >7
++    |1:
++    |  sd LFUNC:RB, FRAME_FUNC(BASE)		// Copy function down, but keep PC.
++    |  sltiu CARG4, TMP3, 2		// (> FF_C) Calling a fast function?
++    |  mv TMP2, BASE
++    |  mv RB, CARG3
++    |   mv TMP3, NARGS8:RC
++    |  beqz NARGS8:RC, >3
++    |2:
++    |   ld CRET1, 0(RA)
++    |    addi RA, RA, 8
++    |  addiw TMP3, TMP3, -8
++    |   sd CRET1, 0(TMP2)
++    |    addi TMP2, TMP2, 8
++    |  bnez TMP3, <2
++    |3:
++    |  or TMP0, TMP0, CARG4
++    |  beqz TMP0, >5
++    |4:
++    |  ins_callt
++    |
++    |5:  // Tailcall to a fast function with a Lua frame below.
++    |  lw INS, -4(TMP1)
++    |  decode_RA8 RA, INS
++    |  sub TMP1, BASE, RA
++    |  ld TMP1, -32(TMP1)
++    |  cleartp LFUNC:TMP1
++    |  ld TMP1, LFUNC:TMP1->pc
++    |   ld KBASE, PC2PROTO(k)(TMP1)     // Need to prepare KBASE.
++    |  j <4
++    |
++    |7:  // Tailcall from a vararg function.
++    |  andi CARG4, TMP2, FRAME_TYPEP
++    |   sub TMP2, BASE, TMP2          // Relocate BASE down.
++    |  bnez CARG4, <1			// Vararg frame below?
++    |  mv BASE, TMP2
++    |  ld TMP1, FRAME_PC(TMP2)
++    |   andi TMP0, TMP1, FRAME_TYPE
++    |  j <1
++    break;
++
++  case BC_ITERC:
++    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 ((2+1)*8))
++    |  mv TMP2, BASE			// Save old BASE for vmeta_call.
++    |  add BASE, BASE, RA
++    |  ld RB, -24(BASE)		//A, A+1, A+2 = A-3, A-2, A-1.
++    |   ld CARG1, -16(BASE)
++    |    ld CARG2, -8(BASE)
++    |  li NARGS8:RC, 16		// Iterators get 2 arguments.
++    |  sd RB, 0(BASE)			// Copy callable.
++    |   sd CARG1, 16(BASE)		// Copy state.
++    |    sd CARG2, 24(BASE)		// Copy control var.
++    |   addi BASE, BASE, 16
++    |  checkfunc RB, ->vmeta_call
++    |  ins_call
++    break;
++
++  case BC_ITERN:
++    |  // RA = base*8, (RB = (nresults+1)*8, RC = (nargs+1)*8 (2+1)*8)
++    |.if JIT
++    |  hotloop
++    |.endif
++    |->vm_IITERN:
++    |  add RA, BASE, RA
++    |  ld TAB:RB, -16(RA)
++    |   lw RC, -8(RA)		// Get index from control var.
++    |  cleartp TAB:RB
++    |   addi PC, PC, 4
++    |  lw TMP0, TAB:RB->asize
++    |   ld TMP1, TAB:RB->array
++    |  slli CARG3, TISNUM, 47
++    |1:  // Traverse array part.
++    |  bleu TMP0, RC, >5			// Index points after array part?
++    |   slliw TMP3, RC, 3
++    |  add TMP3, TMP1, TMP3
++    |  ld CARG1, 0(TMP3)
++    |     lhu RD, -4+OFS_RD(PC)		// ITERL RD
++    |   or TMP2, RC, CARG3
++    |   addiw RC, RC, 1
++    |  beq CARG1, TISNIL, <1		// Skip holes in array part.
++    |   sd TMP2, 0(RA)
++    |  sd CARG1, 8(RA)
++    |     lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |     decode_BC4b RD
++    |     add RD, RD, TMP3
++    |   sw RC, -8(RA)		// Update control var.
++    |     add PC, PC, RD
++    |3:
++    |  ins_next
++    |
++    |5:  // Traverse hash part.
++    |  lw TMP1, TAB:RB->hmask
++    |  subw RC, RC, TMP0
++    |   ld TMP2, TAB:RB->node
++    |6:
++    |  bltu TMP1, RC, <3		// End of iteration? Branch to ITERL+1.
++    |   slliw TMP3, RC, 5
++    |   slliw RB, RC, 3
++    |   subw TMP3, TMP3, RB
++    |  add NODE:TMP3, TMP3, TMP2	// node = tab->node + (idx*32-idx*8)
++    |  ld CARG1, 0(NODE:TMP3)
++    |     lhu RD, -4+OFS_RD(PC)		// ITERL RD
++    |   addiw RC, RC, 1
++    |  beq CARG1, TISNIL, <6		// Skip holes in hash part.
++    |  ld CARG2, NODE:TMP3->key
++    |     lui TMP3, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  sd CARG1, 8(RA)
++    |    addw RC, RC, TMP0
++    |     decode_BC4b RD
++    |     addw RD, RD, TMP3
++    |  sd CARG2, 0(RA)
++    |     add PC, PC, RD
++    |   sw RC, -8(RA)                // Update control var.
++    |  j <3
++    break;
++
++  case BC_ISNEXT:
++    |  // RA = base*8, RD = target (points to ITERN)
++    |  add RA, BASE, RA
++    |    srliw TMP0, RD, 1
++    |  ld CFUNC:CARG1, -24(RA)
++    |    add TMP0, PC, TMP0
++    |   ld CARG2, -16(RA)
++    |   ld CARG3, -8(RA)
++    |    lui TMP2, (-(BCBIAS_J*4 >> 12)) & 0xfffff		// -BCBIAS_J*4
++    |  checkfunc CFUNC:CARG1, >5
++    |  gettp CARG2, CARG2
++    |  addi CARG2, CARG2, -LJ_TTAB
++    |  lbu TMP1, CFUNC:CARG1->ffid
++    |  addi CARG3, CARG3, -LJ_TNIL
++    |  or TMP3, CARG2, CARG3
++    |  addi TMP1, TMP1, -FF_next_N
++    |  or TMP3, TMP3, TMP1
++    |   lui TMP1, ((LJ_KEYINDEX - (((LJ_KEYINDEX & 0xfff)^0x800) - 0x800)) >> 12) & 0xfffff
++    |  bnez TMP3, >5
++    |  add PC, TMP0, TMP2
++    |  addi TMP1, TMP1, (((LJ_KEYINDEX & 0xfff)^0x800) - 0x800)
++    |  slli TMP1, TMP1, 32
++    |  sd TMP1, -8(RA)
++    |1:
++    |  ins_next
++    |5:  // Despecialize bytecode if any of the checks fail.
++    |  li TMP3, BC_JMP
++    |   li TMP1, BC_ITERC
++    |  sb TMP3, -4+OFS_OP(PC)
++    |   add PC, TMP0, TMP2
++    |.if JIT
++    |  lb TMP0, OFS_OP(PC)
++    |  li TMP3, BC_ITERN
++    |  lhu TMP2, OFS_RD(PC)
++    |  bne TMP0, TMP3, >6
++    |.endif
++    |  sb TMP1, OFS_OP(PC)
++    |  j <1
++    |.if JIT
++    |6:  // Unpatch JLOOP.
++    |  ld TMP0, GL_J(trace)(GL)	// Assumes J.trace in-reach relative to GL.
++    |  slliw TMP2, TMP2, 3
++    |  add TMP0, TMP0, TMP2
++    |  ld TRACE:TMP2, 0(TMP0)
++    |  lw TMP0, TRACE:TMP2->startins
++    |  andi TMP0, TMP0, -256
++    |  or TMP0, TMP0, TMP1
++    |  sw TMP0, 0(PC)
++    |  j <1
++    |.endif
++    break;
++
++  case BC_VARG:
++    |  // RA = base*8, RB = (nresults+1)*8, RC = numparams*8
++    |  ld TMP0, FRAME_PC(BASE)
++    |  decode_RDtoRC8 RC, RD
++    |   decode_RB8 RB, INS
++    |  add RC, BASE, RC
++    |   add RA, BASE, RA
++    |  addi RC, RC, FRAME_VARG
++    |   add TMP2, RA, RB
++    |  addi TMP3, BASE, -16		// TMP3 = vtop
++    |  sub RC, RC, TMP0		// RC = vbase
++    |  // Note: RC may now be even _above_ BASE if nargs was < numparams.
++    |   sub TMP1, TMP3, RC
++    |  beqz RB, >5			// Copy all varargs?
++    |  addi TMP2, TMP2, -16
++    |1:  // Copy vararg slots to destination slots.
++    |  ld CARG1, 0(RC)
++    |  sltu TMP0, RC, TMP3
++    |    addi RC, RC, 8
++    |  bnez TMP0, >2
++    |  mv CARG1, TISNIL
++    |2:
++    |  sd CARG1, 0(RA)
++    |  sltu TMP0, RA, TMP2
++    |  addi RA, RA, 8
++    |  bnez TMP0, <1
++    |3:
++    |  ins_next
++    |
++    |5:  // Copy all varargs.
++    |  ld TMP0, L->maxstack
++    |   li MULTRES, 8		// MULTRES = (0+1)*8
++    |  blez TMP1, <3			// No vararg slots?
++    |  add TMP2, RA, TMP1
++    |   addi MULTRES, TMP1, 8
++    |  bltu TMP0, TMP2, >7
++    |6:
++    |  ld CRET1, 0(RC)
++    |   addi RC, RC, 8
++    |  sd CRET1, 0(RA)
++    |   addi RA, RA, 8
++    |  bltu RC, TMP3, <6			// More vararg slots?
++    |  j <3
++    |
++    |7:  // Grow stack for varargs.
++    |   sd RA, L->top
++    |  sub RA, RA, BASE
++    |   sd BASE, L->base
++    |  sub BASE, RC, BASE		// Need delta, because BASE may change.
++    |   sd PC, SAVE_PC(sp)
++    |  srliw CARG2, TMP1, 3
++    |   mv CARG1, L
++    |  jal extern lj_state_growstack	// (lua_State *L, int n)
++    |  mv RC, BASE
++    |  ld BASE, L->base
++    |  add RA, BASE, RA
++    |  add RC, BASE, RC
++    |  addi TMP3, BASE, -16
++    |  j <6
++    break;
++
++  /* -- Returns ----------------------------------------------------------- */
++
++  case BC_RETM:
++    |  // RA = results*8, RD = extra_nresults*8
++    |  addw RD, RD, MULTRES
++    |  j ->BC_RET_Z1
++    break;
++
++  case BC_RET:
++    |  // RA = results*8, RD = (nresults+1)*8
++    |->BC_RET_Z1:
++    |  ld PC, FRAME_PC(BASE)
++    |   add RA, BASE, RA
++    |    mv MULTRES, RD
++    |1:
++    |  andi TMP0, PC, FRAME_TYPE
++    |   xori TMP1, PC, FRAME_VARG
++    |  bnez TMP0, ->BC_RETV_Z
++    |
++    |->BC_RET_Z:
++    |  // BASE = base, RA = resultptr, RD = (nresults+1)*8, PC = return
++    |   lw INS, -4(PC)
++    |    addi TMP2, BASE, -16
++    |    addi RC, RD, -8
++    |  decode_RA8 TMP0, INS
++    |   decode_RB8 RB, INS
++    |   sub BASE, TMP2, TMP0
++    |   add TMP3, TMP2, RB
++    |  beqz RC, >3
++    |2:
++    |   ld CRET1, 0(RA)
++    |    addi RA, RA, 8
++    |  addi RC, RC, -8
++    |   sd CRET1, 0(TMP2)
++    |    addi TMP2, TMP2, 8
++    |  bnez RC, <2
++    |3:
++    |  addi TMP3, TMP3, -8
++    |5:
++    |  bltu TMP2, TMP3, >6
++    |   ld LFUNC:TMP1, FRAME_FUNC(BASE)
++    |  cleartp LFUNC:TMP1
++    |  ld TMP1, LFUNC:TMP1->pc
++    |  ld KBASE, PC2PROTO(k)(TMP1)
++    |  ins_next
++    |
++    |6:  // Fill up results with nil.
++    |  sd TISNIL, 0(TMP2)
++    |   addi TMP2, TMP2, 8
++    |  j <5
++    |
++    |->BC_RETV_Z:  // Non-standard return case.
++    |  andi TMP2, TMP1, FRAME_TYPEP
++    |  bxnez TMP2, ->vm_return
++    |  // Return from vararg function: relocate BASE down.
++    |  sub BASE, BASE, TMP1
++    |   ld PC, FRAME_PC(BASE)
++    |  j <1
++    break;
++
++  case BC_RET0: case BC_RET1:
++    |  // RA = results*8, RD = (nresults+1)*8
++    |  ld PC, FRAME_PC(BASE)
++    |   add RA, BASE, RA
++    |    mv MULTRES, RD
++    |  andi TMP0, PC, FRAME_TYPE
++    |   xori TMP1, PC, FRAME_VARG
++    |  bnez TMP0, ->BC_RETV_Z
++    |  lw INS, -4(PC)
++    |   addi TMP2, BASE, -16
++    if (op == BC_RET1) {
++      |  ld CRET1, 0(RA)
++    }
++    |  decode_RB8 RB, INS
++    |   decode_RA8 RA, INS
++    |   sub BASE, TMP2, RA
++    if (op == BC_RET1) {
++      |  sd CRET1, 0(TMP2)
++    }
++    |5:
++    |  bltu RD, RB, >6
++    |   ld TMP1, FRAME_FUNC(BASE)
++    |  cleartp LFUNC:TMP1
++    |  ld TMP1, LFUNC:TMP1->pc
++    |  ins_next1
++    |  ld KBASE, PC2PROTO(k)(TMP1)
++    |  ins_next2
++    |
++    |6:  // Fill up results with nil.
++    |  addi TMP2, TMP2, 8
++    |  addi RD, RD, 8
++    if (op == BC_RET1) {
++      |  sd TISNIL, 0(TMP2)
++    } else {
++      |  sd TISNIL, -8(TMP2)
++    }
++    |  j <5
++    break;
++
++  /* -- Loops and branches ------------------------------------------------ */
++
++  case BC_FORL:
++    |.if JIT
++    |  hotloop
++    |.endif
++    |  // Fall through. Assumes BC_IFORL follows.
++    break;
++
++  case BC_JFORI:
++  case BC_JFORL:
++#if !LJ_HASJIT
++    break;
++#endif
++  case BC_FORI:
++  case BC_IFORL:
++    |  // RA = base*8, RD = target (after end of loop or start of loop)
++    vk = (op == BC_IFORL || op == BC_JFORL);
++    |  add RA, BASE, RA
++    |  ld CARG1, FORL_IDX*8(RA)		// CARG1 = IDX
++    |   ld CARG2, FORL_STEP*8(RA)		// CARG2 = STEP
++    |    ld CARG3, FORL_STOP*8(RA)		// CARG3 = STOP
++    |  gettp CARG4, CARG1
++    |   gettp CARG5, CARG2
++    |    gettp CARG6, CARG3
++    if (op != BC_JFORL) {
++      |  srliw RD, RD, 1
++      |  lui TMP2, (-(BCBIAS_J*4 >> 12)) & 0xfffff	// -BCBIAS_J<<2
++      |  add TMP2, RD, TMP2
++    }
++    |  bne CARG4, TISNUM, >3
++    |   sext.w CARG4, CARG1		// start
++    |   sext.w CARG3, CARG3		// stop
++    if (!vk) {				// init
++      |  bxne CARG6, TISNUM, ->vmeta_for
++      |  bxne CARG5, TISNUM, ->vmeta_for
++      |   bfextri TMP0, CARG2, 31, 31	// sign
++      |  slt CARG2, CARG3, CARG4
++      |  slt TMP1, CARG4, CARG3
++      |  neg TMP4, TMP0
++      |  and TMP1, TMP1, TMP4
++      |  not TMP4, TMP4
++      |  and CARG2, CARG2, TMP4
++      |  or CARG2, CARG2, TMP1		// CARG2=0: +,start <= stop or -,start >= stop
++    } else {
++      |  sext.w CARG5, CARG2		// step
++      |  addw CARG1, CARG4, CARG5	// start + step
++      |  xor TMP3, CARG1, CARG4		// y^a
++      |  xor TMP1, CARG1, CARG5		// y^b
++      |  and TMP3, TMP3, TMP1
++      |  slt TMP1, CARG1, CARG3		// start+step < stop ?
++      |  slt CARG3, CARG3, CARG1	// stop < start+step ?
++      |  sltz TMP0, CARG5		// step < 0 ?
++      |   sltz TMP3, TMP3		// ((y^a) & (y^b)) < 0: overflow.
++      |  neg TMP4, TMP0
++      |  and TMP1, TMP1, TMP4
++      |  not TMP4, TMP4
++      |  and CARG3, CARG3, TMP4
++      |  or CARG3, CARG3, TMP1
++      |  or CARG2, CARG3, TMP3		// CARG2=1: overflow; CARG2=0: continue
++      |  zext.w CARG1, CARG1
++      |  settp CARG1, TISNUM
++      |  sd CARG1, FORL_IDX*8(RA)
++    }
++    |1:
++    if (op == BC_FORI) {
++      |  neg TMP4, CARG2	// CARG2!=0: jump out the loop; CARG2==0: next INS
++      |  and TMP2, TMP2, TMP4
++      |  add PC, PC, TMP2
++    } else if (op == BC_JFORI) {
++      |  add PC, PC, TMP2
++      |  lhu RD, -4+OFS_RD(PC)
++    } else if (op == BC_IFORL) {
++      |  addi TMP4, CARG2, -1	// CARG2!=0: next INS; CARG2==0: jump back
++      |  and TMP2, TMP2, TMP4
++      |  add PC, PC, TMP2
++    }
++    |  ins_next1
++    |  sd CARG1, FORL_EXT*8(RA)
++    |2:
++    if (op == BC_JFORI) {
++      |  decode_RD8b RD
++      |  beqz CARG2, =>BC_JLOOP		// CARG2 == 0: excute the loop
++    } else if (op == BC_JFORL) {
++      |  beqz CARG2, =>BC_JLOOP
++    }
++    |  ins_next2
++    |
++    |3:  // FP loop.
++    |  fld FTMP0, FORL_IDX*8(RA)	// start
++    |  fld FTMP1, FORL_STOP*8(RA)	// stop
++    |  ld TMP0, FORL_STEP*8(RA)	// step
++    |  sltz CARG2, TMP0		// step < 0 ?
++    |  neg CARG2, CARG2
++    if (!vk) {
++      |  sltiu TMP3, CARG4, LJ_TISNUM	// start is number ?
++      |  sltiu TMP0, CARG5, LJ_TISNUM	// step is number ?
++      |  sltiu TMP1, CARG6, LJ_TISNUM	// stop is number ?
++      |  and TMP3, TMP3, TMP1
++      |  and TMP0, TMP0, TMP3
++      |  bxeqz TMP0, ->vmeta_for		// if start or step or stop isn't number
++      |  flt.d TMP3, FTMP0, FTMP1		// start < stop ?
++      |  flt.d TMP4, FTMP1, FTMP0		// stop < start ?
++      |  and TMP3, TMP3, CARG2
++      |  not CARG2, CARG2
++      |  and TMP4, TMP4, CARG2
++      |  or CARG2, TMP3, TMP4	// CARG2=0:+,start<stop or -,start>stop
++      |  j <1
++    } else {
++      |  fld FTMP3, FORL_STEP*8(RA)
++      |  fadd.d FTMP0, FTMP0, FTMP3		// start + step
++      |  flt.d TMP3, FTMP0, FTMP1		// start + step < stop ?
++      |  flt.d TMP4, FTMP1, FTMP0
++      |  and TMP3, TMP3, CARG2
++      |  not CARG2, CARG2
++      |  and TMP4, TMP4, CARG2
++      |  or CARG2, TMP3, TMP4
++      if (op == BC_IFORL) {
++  |  addi TMP3, CARG2, -1
++  |  and TMP2, TMP2, TMP3
++	|  add PC, PC, TMP2
++      }
++      |  fsd FTMP0, FORL_IDX*8(RA)
++      |  ins_next1
++      |  fsd FTMP0, FORL_EXT*8(RA)
++      |  j <2
++    }
++    break;
++
++  case BC_ITERL:
++    |.if JIT
++    |  hotloop
++    |.endif
++    |  // Fall through. Assumes BC_IITERL follows.
++    break;
++
++  case BC_JITERL:
++#if !LJ_HASJIT
++    break;
++#endif
++  case BC_IITERL:
++    |  // RA = base*8, RD = target
++    |  add RA, BASE, RA
++    |  ld TMP1, 0(RA)
++    |  beq TMP1, TISNIL, >1		// Stop if iterator returned nil.
++    if (op == BC_JITERL) {
++      |   sd TMP1,-8(RA)
++      |  j =>BC_JLOOP
++    } else {
++      |  branch_RD			// Otherwise save control var + branch.
++      |  sd TMP1, -8(RA)
++    }
++    |1:
++    |  ins_next
++    break;
++
++  case BC_LOOP:
++    |  // RA = base*8, RD = target (loop extent)
++    |  // Note: RA/RD is only used by trace recorder to determine scope/extent
++    |  // This opcode does NOT jump, it's only purpose is to detect a hot loop.
++    |.if JIT
++    |  hotloop
++    |.endif
++    |  // Fall through. Assumes BC_ILOOP follows.
++    break;
++
++  case BC_ILOOP:
++    |  // RA = base*8, RD = target (loop extent)
++    |  ins_next
++    break;
++
++  case BC_JLOOP:
++    |.if JIT
++    |  // RA = base*8 (ignored), RD = traceno*8
++    |  ld TMP0, GL_J(trace)(GL)	// Assumes J.trace in-reach relative to GL.
++    |  add TMP0, TMP0, RD
++    |  // Traces on RISC-V don't store the trace number, so use 0.
++    |  sd x0, GL->vmstate
++    |  ld TRACE:TMP1, 0(TMP0)
++    |  sd BASE, GL->jit_base	// store Current JIT code L->base
++    |  ld TMP1, TRACE:TMP1->mcode
++    |  sd L, GL->tmpbuf.L
++    |  jr TMP1
++    |.endif
++    break;
++
++  case BC_JMP:
++    |  // RA = base*8 (only used by trace recorder), RD = target
++    |  branch_RD		// PC + (jump - 0x8000)<<2
++    |  ins_next
++    break;
++
++  /* -- Function headers -------------------------------------------------- */
++
++  case BC_FUNCF:
++    |.if JIT
++    |  hotcall
++    |.endif
++  case BC_FUNCV:  /* NYI: compiled vararg functions. */
++    |  // Fall through. Assumes BC_IFUNCF/BC_IFUNCV follow.
++    break;
++
++  case BC_JFUNCF:
++#if !LJ_HASJIT
++    break;
++#endif
++  case BC_IFUNCF:
++    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
++    |  ld TMP2, L->maxstack
++    |   lbu TMP1, -4+PC2PROTO(numparams)(PC)
++    |    ld KBASE, -4+PC2PROTO(k)(PC)
++    |  bxltu TMP2, RA, ->vm_growstack_l
++    |   slliw TMP1, TMP1, 3			// numparams*8
++    |2:
++    |  bltu NARGS8:RC, TMP1, >3		// Check for missing parameters.
++    if (op == BC_JFUNCF) {
++      |  decode_RD8 RD, INS
++      |  j =>BC_JLOOP
++    } else {
++      |  ins_next
++    }
++    |
++    |3:  // Clear missing parameters.
++    |  add TMP0, BASE, NARGS8:RC
++    |  sd TISNIL, 0(TMP0)
++    |   addiw NARGS8:RC, NARGS8:RC, 8
++    |  j <2
++    break;
++
++  case BC_JFUNCV:
++#if !LJ_HASJIT
++    break;
++#endif
++    |  NYI  // NYI: compiled vararg functions
++    break;  /* NYI: compiled vararg functions. */
++
++  case BC_IFUNCV:
++    |  // BASE = new base, RA = BASE+framesize*8, RB = LFUNC, RC = nargs*8
++    |   li TMP0, LJ_TFUNC
++    |   add TMP1, BASE, RC
++    |  ld TMP2, L->maxstack
++    |   settp LFUNC:RB, TMP0
++    |  add TMP0, RA, RC
++    |   sd LFUNC:RB, 0(TMP1)		// Store (tagged) copy of LFUNC.
++    |   addi TMP3, RC, 16+FRAME_VARG
++    |    ld KBASE, -4+PC2PROTO(k)(PC)
++    |   sd TMP3, 8(TMP1)                // Store delta + FRAME_VARG.
++    |  bxgeu TMP0, TMP2, ->vm_growstack_l
++    |  lbu TMP2, -4+PC2PROTO(numparams)(PC)
++    |   mv RA, BASE
++    |   mv RC, TMP1
++    |  ins_next1
++    |   addi BASE, TMP1, 16
++    |  beqz TMP2, >2
++    |1:
++    |  ld TMP0, 0(RA)
++    |  sltu CARG2, RA, RC			// Less args than parameters?
++    |  mv CARG1, TMP0
++    |    addi RA, RA, 8
++    |    addi TMP1, TMP1, 8
++    |    addiw TMP2, TMP2, -1
++    |  beqz CARG2, >3
++    |  neg TMP4, CARG2		// Clear old fixarg slot (help the GC).
++    |  and TMP3, TISNIL, TMP4
++    |  not TMP4, TMP4
++    |  and CARG1, CARG1, TMP4
++    |  or CARG1, CARG1, TMP3
++    |  sd CARG1, -8(RA)
++    |  sd TMP0, 8(TMP1)
++    |  bnez TMP2, <1
++    |2:
++    |  ins_next2
++    |3:
++    |  neg TMP4, CARG2		// Clear missing fixargs.
++    |  and TMP0, TMP0, TMP4
++    |  not TMP4, TMP4
++    |  and TMP3, TISNIL, TMP4
++    |  or TMP0, TMP0, TMP3
++    |  sd TMP0, 8(TMP1)
++    |  bnez TMP2, <1
++    |  j <2
++    break;
++
++  case BC_FUNCC:
++  case BC_FUNCCW:
++    |  // BASE = new base, RA = BASE+framesize*8, RB = CFUNC, RC = nargs*8
++    if (op == BC_FUNCC) {
++      |  ld CARG4, CFUNC:RB->f
++    } else {
++      |  ld CARG4, GL->wrapf
++    }
++    |  add TMP1, RA, NARGS8:RC
++    |  ld TMP2, L->maxstack
++    |   add RC, BASE, NARGS8:RC
++    |  sd BASE, L->base		// base of currently excuting function
++    |   sd RC, L->top
++    |  bxgtu TMP1, TMP2, ->vm_growstack_c	// Need to grow stack.
++    |    li_vmstate C			// li TMP0, ~LJ_VMST_C
++    if (op == BC_FUNCCW) {
++      |  ld CARG2, CFUNC:RB->f
++    }
++    |   mv CARG1, L
++    |    st_vmstate			// sw TMP0, GL->vmstate
++    |  jalr CARG4		// (lua_State *L [, lua_CFunction f])
++    |  // Returns nresults.
++    |  ld BASE, L->base
++    |  ld TMP1, L->top
++    |  sd L, GL->cur_L
++    |   slliw RD, CRET1, 3
++    |    li_vmstate INTERP
++    |  ld PC, FRAME_PC(BASE)		// Fetch PC of caller.
++    |  sub RA, TMP1, RD		// RA = L->top - nresults*8
++    |    st_vmstate
++    |  j ->vm_returnc
++    break;
++
++  /* ---------------------------------------------------------------------- */
++
++  default:
++    fprintf(stderr, "Error: undefined opcode BC_%s\n", bc_names[op]);
++    exit(2);
++    break;
++  }
++}
++
++static int build_backend(BuildCtx *ctx)
++{
++  int op;
++
++  dasm_growpc(Dst, BC__MAX);
++
++  build_subroutines(ctx);
++
++  |.code_op
++  for (op = 0; op < BC__MAX; op++)
++    build_ins(ctx, (BCOp)op, op);
++
++  return BC__MAX;
++}
++
++/* Emit pseudo frame-info for all assembler functions. */
++static void emit_asm_debug(BuildCtx *ctx)
++{
++
++}
diff --git a/openresty.init b/openresty.init
new file mode 100644
index 0000000..47a8574
--- /dev/null
+++ b/openresty.init
@@ -0,0 +1,111 @@
+#!/bin/sh
+#
+# openresty - this script starts and stops the nginx daemon of OpenResty
+#
+# chkconfig:   345 85 15
+# description: OpenResty is a scalable web platform by extending
+#              NGINX with Lua
+# processname: openresty
+# config:      /usr/local/openresty/nginx/conf/nginx.conf
+# config:      /etc/sysconfig/openresty
+# pidfile:     /usr/local/openresty/nginx/logs/nginx.pid
+
+# Source function library.
+. /etc/rc.d/init.d/functions
+
+# Source networking configuration.
+. /etc/sysconfig/network
+
+# Check that networking is up.
+[ "$NETWORKING" = "no" ] && exit 0
+
+nginx="/usr/local/openresty/nginx/sbin/nginx"
+prog=$(basename $nginx)
+pidfile=/usr/local/openresty/nginx/logs/nginx.pid
+
+NGINX_CONF_FILE="/usr/local/openresty/nginx/conf/nginx.conf"
+
+[ -f /etc/sysconfig/openresty ] && . /etc/sysconfig/openresty
+
+lockfile=/var/lock/subsys/openresty
+
+start() {
+    [ -x $nginx ] || exit 5
+    [ -f $NGINX_CONF_FILE ] || exit 6
+    echo -n $"Starting $prog: "
+    daemon $nginx -c $NGINX_CONF_FILE
+    retval=$?
+    echo
+    [ $retval -eq 0 ] && touch $lockfile
+    return $retval
+}
+
+stop() {
+    echo -n $"Stopping $prog: "
+    killproc $prog -QUIT
+    retval=$?
+    echo
+    [ $retval -eq 0 ] && rm -f $lockfile
+    return $retval
+}
+
+restart() {
+    configtest || return $?
+    stop
+    sleep 1
+    start
+}
+
+reload() {
+    configtest || return $?
+    echo -n $"Reloading $prog: "
+    killproc $nginx -HUP
+    RETVAL=$?
+    echo
+}
+
+force_reload() {
+    restart
+}
+
+configtest() {
+    $nginx -q -t -c $NGINX_CONF_FILE
+}
+
+rh_status() {
+    status $nginx
+}
+
+rh_status_q() {
+    rh_status >/dev/null 2>&1
+}
+
+case "$1" in
+    start)
+        rh_status_q && exit 0
+        $1
+        ;;
+    stop)
+        rh_status_q || exit 0
+        $1
+        ;;
+    restart|configtest)
+        $1
+        ;;
+    reload)
+        rh_status_q || exit 7
+        $1
+        ;;
+    force-reload)
+        force_reload
+        ;;
+    status)
+        rh_status
+        ;;
+    condrestart|try-restart)
+        rh_status_q || exit 0
+        ;;
+    *)
+        echo $"Usage: $0 {start|stop|status|restart|condrestart|try-restart|reload|force-reload|configtest}"
+        exit 2
+esac
diff --git a/openresty.service b/openresty.service
new file mode 100644
index 0000000..164602c
--- /dev/null
+++ b/openresty.service
@@ -0,0 +1,16 @@
+[Unit]
+Description=The OpenResty Application Platform
+After=syslog.target network-online.target remote-fs.target nss-lookup.target
+Wants=network-online.target
+
+[Service]
+Type=forking
+PIDFile=/usr/local/openresty/nginx/logs/nginx.pid
+ExecStartPre=/usr/local/openresty/nginx/sbin/nginx -t
+ExecStart=/usr/local/openresty/nginx/sbin/nginx
+ExecReload=/bin/kill -s HUP $MAINPID
+ExecStop=/bin/kill -s QUIT $MAINPID
+PrivateTmp=true
+
+[Install]
+WantedBy=multi-user.target
diff --git a/openresty.spec b/openresty.spec
new file mode 100644
index 0000000..8a840b3
--- /dev/null
+++ b/openresty.spec
@@ -0,0 +1,463 @@
+Name:           openresty
+Version:        1.21.4.1
+Release:        3
+Summary:        OpenResty, scalable web platform by extending NGINX with Lua
+
+Group:          System Environment/Daemons
+
+# BSD License (two clause)
+# http://www.freebsd.org/copyright/freebsd-license.html
+License:        BSD
+URL:            https://openresty.org/
+
+Source0:        https://openresty.org/download/openresty-%{version}.tar.gz
+
+%if 0%{?amzn} >= 2 || 0%{?suse_version} || 0%{?fedora} || 0%{?rhel} >= 7
+%define         use_systemd   1
+%endif
+
+Source1:        openresty.service
+Source2:        openresty.init
+
+Patch1:		0001-add-option-out-dir-on-configure.patch
+Patch2:		0002-add-riscv-support-not-upstream-modified-files.patch
+Patch3:		0003-add-riscv-support-not-upstream-new-files.patch
+
+BuildRoot:      %{_tmppath}/%{name}-%{version}-%{release}-root-%(%{__id_u} -n)
+
+BuildRequires:  perl-File-Temp
+BuildRequires:  ccache, gcc, make, perl, systemtap-sdt-devel
+BuildRequires:  openresty-zlib-devel >= 1.2.11-3
+BuildRequires:  openresty-openssl111-devel >= 1.1.1h-1
+BuildRequires:  openresty-pcre-devel >= 8.44-1
+Requires:       openresty-zlib >= 1.2.11-3
+Requires:       openresty-openssl111 >= 1.1.1h-1
+Requires:       openresty-pcre >= 8.44-1
+
+
+%if 0%{?suse_version}
+
+# for /sbin/service
+Requires(post):  insserv-compat
+Requires(preun): insserv-compat
+
+BuildRequires:  systemd
+
+%else
+
+%if 0%{?use_systemd}
+
+BuildRequires:  systemd
+Requires:       systemd
+
+%else
+
+# for /sbin/service
+Requires(post):  chkconfig
+Requires(preun): chkconfig, initscripts
+
+%endif
+
+%endif
+
+AutoReqProv:        no
+
+%define orprefix            %{_usr}/local/%{name}
+%define zlib_prefix         %{orprefix}/zlib
+%define pcre_prefix         %{orprefix}/pcre
+%define openssl_prefix      %{orprefix}/openssl111
+
+%global debug_package %{nil}
+
+# Remove source code from debuginfo package.
+%define __debug_install_post \
+  %{_rpmconfigdir}/find-debuginfo.sh %{?_missing_build_ids_terminate_build:--strict-build-id} %{?_find_debuginfo_opts} "%{_builddir}/%{?buildsubdir}"; \
+  rm -rf "${RPM_BUILD_ROOT}/usr/src/debug"; \
+  mkdir -p "${RPM_BUILD_ROOT}/usr/src/debug/openresty-%{version}"; \
+  mkdir -p "${RPM_BUILD_ROOT}/usr/src/debug/tmp"; \
+  mkdir -p "${RPM_BUILD_ROOT}/usr/src/debug/builddir"; \
+%{nil}
+
+%if 0%{?fedora} >= 27
+%undefine _debugsource_packages
+%undefine _debuginfo_subpackages
+%endif
+
+%if 0%{?rhel} >= 8
+%undefine _debugsource_packages
+%undefine _debuginfo_subpackages
+%endif
+
+%if 0%{?openEuler} >= 2
+%undefine _debugsource_packages
+%undefine _debuginfo_subpackages
+%endif
+
+%description
+This package contains the core server for OpenResty. Built for production
+uses.
+
+OpenResty is a full-fledged web platform by integrating the standard Nginx
+core, LuaJIT, many carefully written Lua libraries, lots of high quality
+3rd-party Nginx modules, and most of their external dependencies. It is
+designed to help developers easily build scalable web applications, web
+services, and dynamic web gateways.
+
+By taking advantage of various well-designed Nginx modules (most of which
+are developed by the OpenResty team themselves), OpenResty effectively
+turns the nginx server into a powerful web app server, in which the web
+developers can use the Lua programming language to script various existing
+nginx C modules and Lua modules and construct extremely high-performance
+web applications that are capable to handle 10K ~ 1000K+ connections in
+a single box.
+
+
+%package resty
+
+Summary:        OpenResty command-line utility, resty
+Group:          Development/Tools
+Requires:       perl, openresty >= %{version}-%{release}
+Requires:       perl(File::Spec), perl(FindBin), perl(List::Util), perl(Getopt::Long), perl(File::Temp), perl(POSIX), perl(Time::HiRes)
+
+%if 0%{?fedora} >= 10 || 0%{?rhel} >= 6 || 0%{?centos} >= 6 || 0%{?openEuler} >= 2
+BuildArch:      noarch
+%endif
+
+
+%description resty
+This package contains the "resty" command-line utility for OpenResty, which
+runs OpenResty Lua scripts on the terminal using a headless NGINX behind the
+scene.
+
+OpenResty is a full-fledged web platform by integrating the standard Nginx
+core, LuaJIT, many carefully written Lua libraries, lots of high quality
+3rd-party Nginx modules, and most of their external dependencies. It is
+designed to help developers easily build scalable web applications, web
+services, and dynamic web gateways.
+
+
+%package doc
+
+Summary:        OpenResty documentation tool, restydoc
+Group:          Development/Tools
+Requires:       perl, perl(Getopt::Std), perl(File::Spec), perl(FindBin), perl(Cwd), perl(File::Temp), perl(Pod::Man), perl(Pod::Text)
+
+%if (!0%{?rhel} || 0%{?rhel} < 7) && !0%{?fedora}
+Requires:       groff
+%endif
+
+%if (0%{?rhel} && 0%{?rhel} >= 7) || 0%{?fedora} || 0%{?openEuler} >= 2
+Requires:       groff-base
+%endif
+
+Provides:       restydoc, restydoc-index, md2pod.pl
+
+%if 0%{?fedora} >= 10 || 0%{?rhel} >= 6 || 0%{?centos} >= 6 || 0%{?openEuler} >= 2
+BuildArch:      noarch
+%endif
+
+
+%description doc
+This package contains the official OpenResty documentation index and
+the "restydoc" command-line utility for viewing it.
+
+OpenResty is a full-fledged web platform by integrating the standard Nginx
+core, LuaJIT, many carefully written Lua libraries, lots of high quality
+3rd-party Nginx modules, and most of their external dependencies. It is
+designed to help developers easily build scalable web applications, web
+services, and dynamic web gateways.
+
+
+%package opm
+
+Summary:        OpenResty Package Manager
+Group:          Development/Tools
+Requires:       perl, openresty >= %{version}-%{release}, perl(Digest::MD5)
+Requires:       openresty-doc >= %{version}-%{release}, openresty-resty >= %{version}-%{release}
+Requires:       curl, tar, gzip
+#BuildRequires:  perl(Digest::MD5)
+Requires:       perl(Encode), perl(FindBin), perl(File::Find), perl(File::Path), perl(File::Spec), perl(Cwd), perl(Digest::MD5), perl(File::Copy), perl(File::Temp), perl(Getopt::Long)
+
+%if 0%{?fedora} >= 10 || 0%{?rhel} >= 6 || 0%{?centos} >= 6
+BuildArch:      noarch
+%endif
+
+
+%description opm
+This package provides the client side tool, opm, for OpenResty Pakcage Manager (OPM).
+
+
+%package debug
+Summary:        The debug version of OpenResty
+Group:          System Environment/Daemons
+
+BuildRequires:  openresty-openssl111-debug-devel >= 1.1.1h-1
+Requires:       openresty-zlib >= 1.2.11-3
+Requires:       openresty-openssl111-debug >= 1.1.1h-1
+Requires:       openresty-pcre >= 8.44-1
+
+AutoReqProv:        no
+
+%define orprefix_debug    	%{_usr}/local/openresty-debug
+%define openssl_prefix_debug  	%{_usr}/local/openresty-debug/openssl111
+%define zlib_prefix_debug       %{_usr}/local/openresty/zlib
+%define pcre_prefix_debug       %{_usr}/local/openresty/pcre
+
+%description debug
+This package contains the debug version of the core server for OpenResty.
+Built for development purposes only.
+
+DO NOT USE THIS PACKAGE IN PRODUCTION!
+
+OpenResty is a full-fledged web platform by integrating the standard Nginx
+core, LuaJIT, many carefully written Lua libraries, lots of high quality
+3rd-party Nginx modules, and most of their external dependencies. It is
+designed to help developers easily build scalable web applications, web
+services, and dynamic web gateways.
+
+By taking advantage of various well-designed Nginx modules (most of which
+are developed by the OpenResty team themselves), OpenResty effectively
+turns the nginx server into a powerful web app server, in which the web
+developers can use the Lua programming language to script various existing
+nginx C modules and Lua modules and construct extremely high-performance
+web applications that are capable to handle 10K ~ 1000K+ connections in
+a single box.
+
+%prep
+%setup -q -n "openresty-%{version}"
+
+%patch1 -p1
+%patch2 -p1
+%patch3 -p1
+
+%build
+./configure \
+    --out-dir='build' \
+    --prefix="%{orprefix}" \
+    --with-cc='ccache gcc -fdiagnostics-color=always' \
+    --with-cc-opt="-DNGX_LUA_ABORT_AT_PANIC -I%{zlib_prefix}/include -I%{pcre_prefix}/include -I%{openssl_prefix}/include" \
+    --with-ld-opt="-L%{zlib_prefix}/lib -L%{pcre_prefix}/lib -L%{openssl_prefix}/lib -Wl,-rpath,%{zlib_prefix}/lib:%{pcre_prefix}/lib:%{openssl_prefix}/lib" \
+    --with-pcre-jit \
+    --without-http_rds_json_module \
+    --without-http_rds_csv_module \
+    --without-lua_rds_parser \
+    --with-stream \
+    --with-stream_ssl_module \
+    --with-stream_ssl_preread_module \
+    --with-http_v2_module \
+    --without-mail_pop3_module \
+    --without-mail_imap_module \
+    --without-mail_smtp_module \
+    --with-http_stub_status_module \
+    --with-http_realip_module \
+    --with-http_addition_module \
+    --with-http_auth_request_module \
+    --with-http_secure_link_module \
+    --with-http_random_index_module \
+    --with-http_gzip_static_module \
+    --with-http_sub_module \
+    --with-http_dav_module \
+    --with-http_flv_module \
+    --with-http_mp4_module \
+    --with-http_gunzip_module \
+    --with-threads \
+    --with-compat \
+    --with-luajit-xcflags='-DLUAJIT_NUMMODE=2 -DLUAJIT_ENABLE_LUA52COMPAT' \
+    %{?_smp_mflags}
+
+make -f 'Makefile-build' %{?_smp_mflags}
+
+
+./configure \
+    --out-dir='build-debug' \
+    --prefix="%{orprefix_debug}" \
+    --with-cc='ccache gcc -fdiagnostics-color=always' \
+    --with-debug \
+    --with-cc-opt="-I%{zlib_prefix_debug}/include -I%{pcre_prefix_debug}/include -I%{openssl_prefix_debug}/include -O0" \
+    --with-ld-opt="-L%{zlib_prefix_debug}/lib -L%{pcre_prefix_debug}/lib -L%{openssl_prefix_debug}/lib -Wl,-rpath,%{zlib_prefix_debug}/lib:%{pcre_prefix_debug}/lib:%{openssl_prefix_debug}/lib" \
+    --with-pcre-jit \
+    --without-http_rds_json_module \
+    --without-http_rds_csv_module \
+    --without-lua_rds_parser \
+    --with-stream \
+    --with-stream_ssl_module \
+    --with-stream_ssl_preread_module \
+    --with-http_v2_module \
+    --without-mail_pop3_module \
+    --without-mail_imap_module \
+    --without-mail_smtp_module \
+    --with-http_stub_status_module \
+    --with-http_realip_module \
+    --with-http_addition_module \
+    --with-http_auth_request_module \
+    --with-http_secure_link_module \
+    --with-http_random_index_module \
+    --with-http_gzip_static_module \
+    --with-http_sub_module \
+    --with-http_dav_module \
+    --with-http_flv_module \
+    --with-http_mp4_module \
+    --with-http_gunzip_module \
+    --with-threads \
+    --with-poll_module \
+    --with-compat \
+    --with-luajit-xcflags='-DLUAJIT_NUMMODE=2 -DLUAJIT_ENABLE_LUA52COMPAT -O0' \
+    %{?_smp_mflags}
+
+make -f 'Makefile-build-debug' %{?_smp_mflags}
+
+%install
+rm -rf %{buildroot}
+make install -f 'Makefile-build' DESTDIR=%{buildroot}
+
+rm -rf %{buildroot}%{orprefix}/luajit/share/man
+rm -rf %{buildroot}%{orprefix}/luajit/lib/libluajit-5.1.a
+
+mkdir -p %{buildroot}/usr/bin
+ln -sf %{orprefix}/bin/resty %{buildroot}/usr/bin/
+ln -sf %{orprefix}/bin/restydoc %{buildroot}/usr/bin/
+ln -sf %{orprefix}/bin/opm %{buildroot}/usr/bin/
+ln -sf %{orprefix}/nginx/sbin/nginx %{buildroot}/usr/bin/%{name}
+
+%if 0%{?use_systemd}
+
+mkdir -p %{buildroot}%{_unitdir}
+%{__install} -p -m 0644 %{SOURCE1} %{buildroot}%{_unitdir}/
+
+%else
+
+mkdir -p %{buildroot}/etc/init.d
+%{__install} -p -m 0755 %{SOURCE2} %{buildroot}/etc/init.d/%{name}
+
+%endif
+
+# to silence the check-rpath error
+export QA_RPATHS=$[ 0x0002 ]
+
+
+make install -f 'Makefile-build-debug' DESTDIR=%{buildroot}
+
+rm -rf %{buildroot}%{orprefix_debug}/luajit/share/man
+rm -rf %{buildroot}%{orprefix_debug}/luajit/lib/libluajit-5.1.a
+rm -rf %{buildroot}%{orprefix_debug}/bin/resty
+rm -rf %{buildroot}%{orprefix_debug}/bin/restydoc
+rm -rf %{buildroot}%{orprefix_debug}/bin/restydoc-index
+rm -rf %{buildroot}%{orprefix_debug}/bin/md2pod.pl
+rm -rf %{buildroot}%{orprefix_debug}/bin/nginx-xml2pod
+rm -rf %{buildroot}%{orprefix_debug}/bin/opm
+rm -rf %{buildroot}%{orprefix_debug}/pod/*
+rm -rf %{buildroot}%{orprefix_debug}/resty.index
+
+mkdir -p %{buildroot}/usr/bin
+ln -sf %{orprefix_debug}/nginx/sbin/nginx %{buildroot}/usr/bin/%{name}-debug
+%clean
+rm -rf %{buildroot}
+
+
+%post
+
+%if 0%{?use_systemd}
+%systemd_post openresty.service
+%else
+%if ! 0%{?suse_version}
+/sbin/chkconfig --add %{name}
+%endif
+%endif
+
+
+%preun
+%if 0%{?use_systemd}
+%systemd_preun openresty.service
+%else
+%if ! 0%{?suse_version}
+if [ $1 = 0 ]; then
+    /sbin/service %{name} stop >/dev/null 2>&1
+    /sbin/chkconfig --del %{name}
+fi
+%endif
+%endif
+
+
+%if 0%{?use_systemd}
+%postun
+%systemd_postun_with_restart openresty.service
+%endif
+
+
+%files
+%defattr(-,root,root,-)
+
+%if 0%{?use_systemd}
+%{_unitdir}/%{name}.service
+%else
+/etc/init.d/%{name}
+%endif
+/usr/bin/%{name}
+%{orprefix}/bin/openresty
+%{orprefix}/site/lualib/
+%{orprefix}/luajit/*
+%{orprefix}/lualib/*
+%{orprefix}/nginx/html/*
+%{orprefix}/nginx/logs/
+%{orprefix}/nginx/sbin/*
+%config(noreplace) %{orprefix}/nginx/conf/*
+%{orprefix}/COPYRIGHT
+
+
+%files resty
+%defattr(-,root,root,-)
+
+/usr/bin/resty
+%{orprefix}/bin/resty
+
+
+%files doc
+%defattr(-,root,root,-)
+
+/usr/bin/restydoc
+%{orprefix}/bin/restydoc
+%{orprefix}/bin/restydoc-index
+%{orprefix}/bin/md2pod.pl
+%{orprefix}/bin/nginx-xml2pod
+%{orprefix}/pod/*
+%{orprefix}/resty.index
+
+
+%files opm
+%defattr(-,root,root,-)
+
+/usr/bin/opm
+%{orprefix}/bin/opm
+%{orprefix}/site/manifest/
+%{orprefix}/site/pod/
+
+
+%files debug
+%defattr(-,root,root,-)
+
+/usr/bin/%{name}-debug
+%{orprefix_debug}/bin/openresty
+%{orprefix_debug}/site/lualib/
+%{orprefix_debug}/luajit/*
+%{orprefix_debug}/lualib/*
+%{orprefix_debug}/nginx/html/*
+%{orprefix_debug}/nginx/logs/
+%{orprefix_debug}/nginx/sbin/*
+%config(noreplace) %{orprefix_debug}/nginx/conf/*
+%{orprefix_debug}/COPYRIGHT
+
+%changelog
+* Thu Aug 03 2023 Jingwiw  <wangjingwei@iscas.ac.cn> - 1.21.4.1-3
+- add riscv64 support
+
+* Sat Jul 29 2023 Xinwei Hu <shinwell_hu@openeuler.sh> - 1.21.4.1-2
+- Fix macro typo in spec file
+
+* Wed Jul 12 2023 Niu zhengjie <niuzj0@gmail.com> 1.21.4.1-1
+- upgrade to 1.21.4.1
+
+* Mon Dec 13 2021 liweigang <liweiganga@uniontech.com> 1.19.3.1-2
+- delete %dist
+
+* Fri Jul 23 2021 Fu Changjie <fu_changjie@qq.com> 1.19.3.1-1
+- Package init with openresty 1.19.3.1, without asan package
diff --git a/sources b/sources
new file mode 100644
index 0000000..a3c9e5a
--- /dev/null
+++ b/sources
@@ -0,0 +1 @@
+3e8650584d2d92ad82ff34568a3d3008  openresty-1.21.4.1.tar.gz