From 0a43a1cbafd867a46f14344868c03008038ccfc1 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Jakub=20=C4=8Cajka?= Date: Fri, 21 Apr 2017 14:56:13 +0200 Subject: [PATCH] fix uint64 constant codegen on s390x Resolves: BZ#1441078 --- golang.spec | 8 +- s390x-uint-codegen.patch | 2579 ++++++++++++++++++++++++++++++++++++++ 2 files changed, 2586 insertions(+), 1 deletion(-) create mode 100644 s390x-uint-codegen.patch diff --git a/golang.spec b/golang.spec index bf46c75..4f21026 100644 --- a/golang.spec +++ b/golang.spec @@ -98,7 +98,7 @@ Name: golang Version: 1.8.1 -Release: 1%{?dist} +Release: 2%{?dist} Summary: The Go Programming Language # source tree includes several copies of Mark.Twain-Tom.Sawyer.txt under Public Domain License: BSD and Public Domain @@ -137,6 +137,7 @@ Patch215: ./go1.5-zoneinfo_testing_only.patch # Proposed patch by mmunday https://golang.org/cl/35262 Patch219: s390x-expose-IfInfomsg-X__ifi_pad.patch +Patch220: s390x-uint-codegen.patch # Having documentation separate was broken Obsoletes: %{name}-docs < 1.1-4 @@ -268,6 +269,7 @@ Requires: %{name} = %{version}-%{release} %patch215 -p1 %patch219 -p1 +%patch220 -p1 cp %{SOURCE1} ./src/runtime/ @@ -506,6 +508,10 @@ fi %endif %changelog +* Fri Apr 21 2017 Jakub Čajka - 1.8.1-2 +- fix uint64 constant codegen on s390x +- Resolves: BZ#1441078 + * Tue Apr 11 2017 Jakub Čajka - 1.8.1-1 - bump to Go 1.8.1 - Resolves: BZ#1440345 diff --git a/s390x-uint-codegen.patch b/s390x-uint-codegen.patch new file mode 100644 index 0000000..5a1cbbb --- /dev/null +++ b/s390x-uint-codegen.patch @@ -0,0 +1,2579 @@ +From 708966abce5d301411c18f01187ff56fd951b17a Mon Sep 17 00:00:00 2001 +From: Michael Munday +Date: Mon, 17 Apr 2017 12:29:32 -0400 +Subject: [PATCH] [release-branch.go1.8] cmd/compile: fix s390x unsigned + comparison constant merging rules + +On s390x unsigned integer comparisons with immediates require the immediate +to be an unsigned 32-bit integer. The rule was checking that the immediate +was a signed 32-bit integer. + +This CL also adds a test for comparisons that could be turned into compare +with immediate or equivalent instructions (depending on architecture and +optimizations applied). + +Cherry-pick of CL 40433 and CL 40873. + +Fixes #19940. + +Change-Id: I1331558a0ee0c4ac33bf8ea488f3ea190d06f110 +Reviewed-on: https://go-review.googlesource.com/40931 +Reviewed-by: Brad Fitzpatrick +Run-TryBot: Brad Fitzpatrick +TryBot-Result: Gobot Gobot +--- + src/cmd/compile/internal/gc/ssa_test.go | 3 + + src/cmd/compile/internal/gc/testdata/cmpConst.go | 2217 ++++++++++++++++++++ + .../internal/gc/testdata/gen/cmpConstGen.go | 248 +++ + src/cmd/compile/internal/ssa/gen/S390X.rules | 4 +- + src/cmd/compile/internal/ssa/rewriteS390X.go | 8 +- + 5 files changed, 2474 insertions(+), 6 deletions(-) + create mode 100644 src/cmd/compile/internal/gc/testdata/cmpConst.go + create mode 100644 src/cmd/compile/internal/gc/testdata/gen/cmpConstGen.go + +diff --git a/src/cmd/compile/internal/gc/ssa_test.go b/src/cmd/compile/internal/gc/ssa_test.go +index 1aebd90..bb315b9 100644 +--- a/src/cmd/compile/internal/gc/ssa_test.go ++++ b/src/cmd/compile/internal/gc/ssa_test.go +@@ -63,6 +63,9 @@ func TestArithmeticConst(t *testing.T) { runTest(t, "arithConst.go") } + + func TestChan(t *testing.T) { runTest(t, "chan.go") } + ++// TestComparisonsConst tests results for comparison operations against constants. ++func TestComparisonsConst(t *testing.T) { runTest(t, "cmpConst.go") } ++ + func TestCompound(t *testing.T) { runTest(t, "compound.go") } + + func TestCtl(t *testing.T) { runTest(t, "ctl.go") } +diff --git a/src/cmd/compile/internal/gc/testdata/cmpConst.go b/src/cmd/compile/internal/gc/testdata/cmpConst.go +new file mode 100644 +index 0000000..f7067be +--- /dev/null ++++ b/src/cmd/compile/internal/gc/testdata/cmpConst.go +@@ -0,0 +1,2217 @@ ++// run ++// Code generated by gen/cmpConstGen.go. DO NOT EDIT. ++ ++package main ++ ++import ( ++ "fmt" ++ "reflect" ++ "runtime" ++) ++ ++// results show the expected result for the elements left of, equal to and right of the index. ++type result struct{ l, e, r bool } ++ ++var ( ++ eq = result{l: false, e: true, r: false} ++ ne = result{l: true, e: false, r: true} ++ lt = result{l: true, e: false, r: false} ++ le = result{l: true, e: true, r: false} ++ gt = result{l: false, e: false, r: true} ++ ge = result{l: false, e: true, r: true} ++) ++ ++// uint64 tests ++var uint64_vals = []uint64{ ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++ 256, ++ 32766, ++ 32767, ++ 32768, ++ 65534, ++ 65535, ++ 65536, ++ 2147483646, ++ 2147483647, ++ 2147483648, ++ 4278190080, ++ 4294967294, ++ 4294967295, ++ 4294967296, ++ 1095216660480, ++ 9223372036854775806, ++ 9223372036854775807, ++ 9223372036854775808, ++ 18374686479671623680, ++ 18446744073709551614, ++ 18446744073709551615, ++} ++ ++func lt_0_uint64(x uint64) bool { return x < 0 } ++func le_0_uint64(x uint64) bool { return x <= 0 } ++func gt_0_uint64(x uint64) bool { return x > 0 } ++func ge_0_uint64(x uint64) bool { return x >= 0 } ++func eq_0_uint64(x uint64) bool { return x == 0 } ++func ne_0_uint64(x uint64) bool { return x != 0 } ++func lt_1_uint64(x uint64) bool { return x < 1 } ++func le_1_uint64(x uint64) bool { return x <= 1 } ++func gt_1_uint64(x uint64) bool { return x > 1 } ++func ge_1_uint64(x uint64) bool { return x >= 1 } ++func eq_1_uint64(x uint64) bool { return x == 1 } ++func ne_1_uint64(x uint64) bool { return x != 1 } ++func lt_126_uint64(x uint64) bool { return x < 126 } ++func le_126_uint64(x uint64) bool { return x <= 126 } ++func gt_126_uint64(x uint64) bool { return x > 126 } ++func ge_126_uint64(x uint64) bool { return x >= 126 } ++func eq_126_uint64(x uint64) bool { return x == 126 } ++func ne_126_uint64(x uint64) bool { return x != 126 } ++func lt_127_uint64(x uint64) bool { return x < 127 } ++func le_127_uint64(x uint64) bool { return x <= 127 } ++func gt_127_uint64(x uint64) bool { return x > 127 } ++func ge_127_uint64(x uint64) bool { return x >= 127 } ++func eq_127_uint64(x uint64) bool { return x == 127 } ++func ne_127_uint64(x uint64) bool { return x != 127 } ++func lt_128_uint64(x uint64) bool { return x < 128 } ++func le_128_uint64(x uint64) bool { return x <= 128 } ++func gt_128_uint64(x uint64) bool { return x > 128 } ++func ge_128_uint64(x uint64) bool { return x >= 128 } ++func eq_128_uint64(x uint64) bool { return x == 128 } ++func ne_128_uint64(x uint64) bool { return x != 128 } ++func lt_254_uint64(x uint64) bool { return x < 254 } ++func le_254_uint64(x uint64) bool { return x <= 254 } ++func gt_254_uint64(x uint64) bool { return x > 254 } ++func ge_254_uint64(x uint64) bool { return x >= 254 } ++func eq_254_uint64(x uint64) bool { return x == 254 } ++func ne_254_uint64(x uint64) bool { return x != 254 } ++func lt_255_uint64(x uint64) bool { return x < 255 } ++func le_255_uint64(x uint64) bool { return x <= 255 } ++func gt_255_uint64(x uint64) bool { return x > 255 } ++func ge_255_uint64(x uint64) bool { return x >= 255 } ++func eq_255_uint64(x uint64) bool { return x == 255 } ++func ne_255_uint64(x uint64) bool { return x != 255 } ++func lt_256_uint64(x uint64) bool { return x < 256 } ++func le_256_uint64(x uint64) bool { return x <= 256 } ++func gt_256_uint64(x uint64) bool { return x > 256 } ++func ge_256_uint64(x uint64) bool { return x >= 256 } ++func eq_256_uint64(x uint64) bool { return x == 256 } ++func ne_256_uint64(x uint64) bool { return x != 256 } ++func lt_32766_uint64(x uint64) bool { return x < 32766 } ++func le_32766_uint64(x uint64) bool { return x <= 32766 } ++func gt_32766_uint64(x uint64) bool { return x > 32766 } ++func ge_32766_uint64(x uint64) bool { return x >= 32766 } ++func eq_32766_uint64(x uint64) bool { return x == 32766 } ++func ne_32766_uint64(x uint64) bool { return x != 32766 } ++func lt_32767_uint64(x uint64) bool { return x < 32767 } ++func le_32767_uint64(x uint64) bool { return x <= 32767 } ++func gt_32767_uint64(x uint64) bool { return x > 32767 } ++func ge_32767_uint64(x uint64) bool { return x >= 32767 } ++func eq_32767_uint64(x uint64) bool { return x == 32767 } ++func ne_32767_uint64(x uint64) bool { return x != 32767 } ++func lt_32768_uint64(x uint64) bool { return x < 32768 } ++func le_32768_uint64(x uint64) bool { return x <= 32768 } ++func gt_32768_uint64(x uint64) bool { return x > 32768 } ++func ge_32768_uint64(x uint64) bool { return x >= 32768 } ++func eq_32768_uint64(x uint64) bool { return x == 32768 } ++func ne_32768_uint64(x uint64) bool { return x != 32768 } ++func lt_65534_uint64(x uint64) bool { return x < 65534 } ++func le_65534_uint64(x uint64) bool { return x <= 65534 } ++func gt_65534_uint64(x uint64) bool { return x > 65534 } ++func ge_65534_uint64(x uint64) bool { return x >= 65534 } ++func eq_65534_uint64(x uint64) bool { return x == 65534 } ++func ne_65534_uint64(x uint64) bool { return x != 65534 } ++func lt_65535_uint64(x uint64) bool { return x < 65535 } ++func le_65535_uint64(x uint64) bool { return x <= 65535 } ++func gt_65535_uint64(x uint64) bool { return x > 65535 } ++func ge_65535_uint64(x uint64) bool { return x >= 65535 } ++func eq_65535_uint64(x uint64) bool { return x == 65535 } ++func ne_65535_uint64(x uint64) bool { return x != 65535 } ++func lt_65536_uint64(x uint64) bool { return x < 65536 } ++func le_65536_uint64(x uint64) bool { return x <= 65536 } ++func gt_65536_uint64(x uint64) bool { return x > 65536 } ++func ge_65536_uint64(x uint64) bool { return x >= 65536 } ++func eq_65536_uint64(x uint64) bool { return x == 65536 } ++func ne_65536_uint64(x uint64) bool { return x != 65536 } ++func lt_2147483646_uint64(x uint64) bool { return x < 2147483646 } ++func le_2147483646_uint64(x uint64) bool { return x <= 2147483646 } ++func gt_2147483646_uint64(x uint64) bool { return x > 2147483646 } ++func ge_2147483646_uint64(x uint64) bool { return x >= 2147483646 } ++func eq_2147483646_uint64(x uint64) bool { return x == 2147483646 } ++func ne_2147483646_uint64(x uint64) bool { return x != 2147483646 } ++func lt_2147483647_uint64(x uint64) bool { return x < 2147483647 } ++func le_2147483647_uint64(x uint64) bool { return x <= 2147483647 } ++func gt_2147483647_uint64(x uint64) bool { return x > 2147483647 } ++func ge_2147483647_uint64(x uint64) bool { return x >= 2147483647 } ++func eq_2147483647_uint64(x uint64) bool { return x == 2147483647 } ++func ne_2147483647_uint64(x uint64) bool { return x != 2147483647 } ++func lt_2147483648_uint64(x uint64) bool { return x < 2147483648 } ++func le_2147483648_uint64(x uint64) bool { return x <= 2147483648 } ++func gt_2147483648_uint64(x uint64) bool { return x > 2147483648 } ++func ge_2147483648_uint64(x uint64) bool { return x >= 2147483648 } ++func eq_2147483648_uint64(x uint64) bool { return x == 2147483648 } ++func ne_2147483648_uint64(x uint64) bool { return x != 2147483648 } ++func lt_4278190080_uint64(x uint64) bool { return x < 4278190080 } ++func le_4278190080_uint64(x uint64) bool { return x <= 4278190080 } ++func gt_4278190080_uint64(x uint64) bool { return x > 4278190080 } ++func ge_4278190080_uint64(x uint64) bool { return x >= 4278190080 } ++func eq_4278190080_uint64(x uint64) bool { return x == 4278190080 } ++func ne_4278190080_uint64(x uint64) bool { return x != 4278190080 } ++func lt_4294967294_uint64(x uint64) bool { return x < 4294967294 } ++func le_4294967294_uint64(x uint64) bool { return x <= 4294967294 } ++func gt_4294967294_uint64(x uint64) bool { return x > 4294967294 } ++func ge_4294967294_uint64(x uint64) bool { return x >= 4294967294 } ++func eq_4294967294_uint64(x uint64) bool { return x == 4294967294 } ++func ne_4294967294_uint64(x uint64) bool { return x != 4294967294 } ++func lt_4294967295_uint64(x uint64) bool { return x < 4294967295 } ++func le_4294967295_uint64(x uint64) bool { return x <= 4294967295 } ++func gt_4294967295_uint64(x uint64) bool { return x > 4294967295 } ++func ge_4294967295_uint64(x uint64) bool { return x >= 4294967295 } ++func eq_4294967295_uint64(x uint64) bool { return x == 4294967295 } ++func ne_4294967295_uint64(x uint64) bool { return x != 4294967295 } ++func lt_4294967296_uint64(x uint64) bool { return x < 4294967296 } ++func le_4294967296_uint64(x uint64) bool { return x <= 4294967296 } ++func gt_4294967296_uint64(x uint64) bool { return x > 4294967296 } ++func ge_4294967296_uint64(x uint64) bool { return x >= 4294967296 } ++func eq_4294967296_uint64(x uint64) bool { return x == 4294967296 } ++func ne_4294967296_uint64(x uint64) bool { return x != 4294967296 } ++func lt_1095216660480_uint64(x uint64) bool { return x < 1095216660480 } ++func le_1095216660480_uint64(x uint64) bool { return x <= 1095216660480 } ++func gt_1095216660480_uint64(x uint64) bool { return x > 1095216660480 } ++func ge_1095216660480_uint64(x uint64) bool { return x >= 1095216660480 } ++func eq_1095216660480_uint64(x uint64) bool { return x == 1095216660480 } ++func ne_1095216660480_uint64(x uint64) bool { return x != 1095216660480 } ++func lt_9223372036854775806_uint64(x uint64) bool { return x < 9223372036854775806 } ++func le_9223372036854775806_uint64(x uint64) bool { return x <= 9223372036854775806 } ++func gt_9223372036854775806_uint64(x uint64) bool { return x > 9223372036854775806 } ++func ge_9223372036854775806_uint64(x uint64) bool { return x >= 9223372036854775806 } ++func eq_9223372036854775806_uint64(x uint64) bool { return x == 9223372036854775806 } ++func ne_9223372036854775806_uint64(x uint64) bool { return x != 9223372036854775806 } ++func lt_9223372036854775807_uint64(x uint64) bool { return x < 9223372036854775807 } ++func le_9223372036854775807_uint64(x uint64) bool { return x <= 9223372036854775807 } ++func gt_9223372036854775807_uint64(x uint64) bool { return x > 9223372036854775807 } ++func ge_9223372036854775807_uint64(x uint64) bool { return x >= 9223372036854775807 } ++func eq_9223372036854775807_uint64(x uint64) bool { return x == 9223372036854775807 } ++func ne_9223372036854775807_uint64(x uint64) bool { return x != 9223372036854775807 } ++func lt_9223372036854775808_uint64(x uint64) bool { return x < 9223372036854775808 } ++func le_9223372036854775808_uint64(x uint64) bool { return x <= 9223372036854775808 } ++func gt_9223372036854775808_uint64(x uint64) bool { return x > 9223372036854775808 } ++func ge_9223372036854775808_uint64(x uint64) bool { return x >= 9223372036854775808 } ++func eq_9223372036854775808_uint64(x uint64) bool { return x == 9223372036854775808 } ++func ne_9223372036854775808_uint64(x uint64) bool { return x != 9223372036854775808 } ++func lt_18374686479671623680_uint64(x uint64) bool { return x < 18374686479671623680 } ++func le_18374686479671623680_uint64(x uint64) bool { return x <= 18374686479671623680 } ++func gt_18374686479671623680_uint64(x uint64) bool { return x > 18374686479671623680 } ++func ge_18374686479671623680_uint64(x uint64) bool { return x >= 18374686479671623680 } ++func eq_18374686479671623680_uint64(x uint64) bool { return x == 18374686479671623680 } ++func ne_18374686479671623680_uint64(x uint64) bool { return x != 18374686479671623680 } ++func lt_18446744073709551614_uint64(x uint64) bool { return x < 18446744073709551614 } ++func le_18446744073709551614_uint64(x uint64) bool { return x <= 18446744073709551614 } ++func gt_18446744073709551614_uint64(x uint64) bool { return x > 18446744073709551614 } ++func ge_18446744073709551614_uint64(x uint64) bool { return x >= 18446744073709551614 } ++func eq_18446744073709551614_uint64(x uint64) bool { return x == 18446744073709551614 } ++func ne_18446744073709551614_uint64(x uint64) bool { return x != 18446744073709551614 } ++func lt_18446744073709551615_uint64(x uint64) bool { return x < 18446744073709551615 } ++func le_18446744073709551615_uint64(x uint64) bool { return x <= 18446744073709551615 } ++func gt_18446744073709551615_uint64(x uint64) bool { return x > 18446744073709551615 } ++func ge_18446744073709551615_uint64(x uint64) bool { return x >= 18446744073709551615 } ++func eq_18446744073709551615_uint64(x uint64) bool { return x == 18446744073709551615 } ++func ne_18446744073709551615_uint64(x uint64) bool { return x != 18446744073709551615 } ++ ++var uint64_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(uint64) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_0_uint64}, ++ {idx: 0, exp: le, fn: le_0_uint64}, ++ {idx: 0, exp: gt, fn: gt_0_uint64}, ++ {idx: 0, exp: ge, fn: ge_0_uint64}, ++ {idx: 0, exp: eq, fn: eq_0_uint64}, ++ {idx: 0, exp: ne, fn: ne_0_uint64}, ++ {idx: 1, exp: lt, fn: lt_1_uint64}, ++ {idx: 1, exp: le, fn: le_1_uint64}, ++ {idx: 1, exp: gt, fn: gt_1_uint64}, ++ {idx: 1, exp: ge, fn: ge_1_uint64}, ++ {idx: 1, exp: eq, fn: eq_1_uint64}, ++ {idx: 1, exp: ne, fn: ne_1_uint64}, ++ {idx: 2, exp: lt, fn: lt_126_uint64}, ++ {idx: 2, exp: le, fn: le_126_uint64}, ++ {idx: 2, exp: gt, fn: gt_126_uint64}, ++ {idx: 2, exp: ge, fn: ge_126_uint64}, ++ {idx: 2, exp: eq, fn: eq_126_uint64}, ++ {idx: 2, exp: ne, fn: ne_126_uint64}, ++ {idx: 3, exp: lt, fn: lt_127_uint64}, ++ {idx: 3, exp: le, fn: le_127_uint64}, ++ {idx: 3, exp: gt, fn: gt_127_uint64}, ++ {idx: 3, exp: ge, fn: ge_127_uint64}, ++ {idx: 3, exp: eq, fn: eq_127_uint64}, ++ {idx: 3, exp: ne, fn: ne_127_uint64}, ++ {idx: 4, exp: lt, fn: lt_128_uint64}, ++ {idx: 4, exp: le, fn: le_128_uint64}, ++ {idx: 4, exp: gt, fn: gt_128_uint64}, ++ {idx: 4, exp: ge, fn: ge_128_uint64}, ++ {idx: 4, exp: eq, fn: eq_128_uint64}, ++ {idx: 4, exp: ne, fn: ne_128_uint64}, ++ {idx: 5, exp: lt, fn: lt_254_uint64}, ++ {idx: 5, exp: le, fn: le_254_uint64}, ++ {idx: 5, exp: gt, fn: gt_254_uint64}, ++ {idx: 5, exp: ge, fn: ge_254_uint64}, ++ {idx: 5, exp: eq, fn: eq_254_uint64}, ++ {idx: 5, exp: ne, fn: ne_254_uint64}, ++ {idx: 6, exp: lt, fn: lt_255_uint64}, ++ {idx: 6, exp: le, fn: le_255_uint64}, ++ {idx: 6, exp: gt, fn: gt_255_uint64}, ++ {idx: 6, exp: ge, fn: ge_255_uint64}, ++ {idx: 6, exp: eq, fn: eq_255_uint64}, ++ {idx: 6, exp: ne, fn: ne_255_uint64}, ++ {idx: 7, exp: lt, fn: lt_256_uint64}, ++ {idx: 7, exp: le, fn: le_256_uint64}, ++ {idx: 7, exp: gt, fn: gt_256_uint64}, ++ {idx: 7, exp: ge, fn: ge_256_uint64}, ++ {idx: 7, exp: eq, fn: eq_256_uint64}, ++ {idx: 7, exp: ne, fn: ne_256_uint64}, ++ {idx: 8, exp: lt, fn: lt_32766_uint64}, ++ {idx: 8, exp: le, fn: le_32766_uint64}, ++ {idx: 8, exp: gt, fn: gt_32766_uint64}, ++ {idx: 8, exp: ge, fn: ge_32766_uint64}, ++ {idx: 8, exp: eq, fn: eq_32766_uint64}, ++ {idx: 8, exp: ne, fn: ne_32766_uint64}, ++ {idx: 9, exp: lt, fn: lt_32767_uint64}, ++ {idx: 9, exp: le, fn: le_32767_uint64}, ++ {idx: 9, exp: gt, fn: gt_32767_uint64}, ++ {idx: 9, exp: ge, fn: ge_32767_uint64}, ++ {idx: 9, exp: eq, fn: eq_32767_uint64}, ++ {idx: 9, exp: ne, fn: ne_32767_uint64}, ++ {idx: 10, exp: lt, fn: lt_32768_uint64}, ++ {idx: 10, exp: le, fn: le_32768_uint64}, ++ {idx: 10, exp: gt, fn: gt_32768_uint64}, ++ {idx: 10, exp: ge, fn: ge_32768_uint64}, ++ {idx: 10, exp: eq, fn: eq_32768_uint64}, ++ {idx: 10, exp: ne, fn: ne_32768_uint64}, ++ {idx: 11, exp: lt, fn: lt_65534_uint64}, ++ {idx: 11, exp: le, fn: le_65534_uint64}, ++ {idx: 11, exp: gt, fn: gt_65534_uint64}, ++ {idx: 11, exp: ge, fn: ge_65534_uint64}, ++ {idx: 11, exp: eq, fn: eq_65534_uint64}, ++ {idx: 11, exp: ne, fn: ne_65534_uint64}, ++ {idx: 12, exp: lt, fn: lt_65535_uint64}, ++ {idx: 12, exp: le, fn: le_65535_uint64}, ++ {idx: 12, exp: gt, fn: gt_65535_uint64}, ++ {idx: 12, exp: ge, fn: ge_65535_uint64}, ++ {idx: 12, exp: eq, fn: eq_65535_uint64}, ++ {idx: 12, exp: ne, fn: ne_65535_uint64}, ++ {idx: 13, exp: lt, fn: lt_65536_uint64}, ++ {idx: 13, exp: le, fn: le_65536_uint64}, ++ {idx: 13, exp: gt, fn: gt_65536_uint64}, ++ {idx: 13, exp: ge, fn: ge_65536_uint64}, ++ {idx: 13, exp: eq, fn: eq_65536_uint64}, ++ {idx: 13, exp: ne, fn: ne_65536_uint64}, ++ {idx: 14, exp: lt, fn: lt_2147483646_uint64}, ++ {idx: 14, exp: le, fn: le_2147483646_uint64}, ++ {idx: 14, exp: gt, fn: gt_2147483646_uint64}, ++ {idx: 14, exp: ge, fn: ge_2147483646_uint64}, ++ {idx: 14, exp: eq, fn: eq_2147483646_uint64}, ++ {idx: 14, exp: ne, fn: ne_2147483646_uint64}, ++ {idx: 15, exp: lt, fn: lt_2147483647_uint64}, ++ {idx: 15, exp: le, fn: le_2147483647_uint64}, ++ {idx: 15, exp: gt, fn: gt_2147483647_uint64}, ++ {idx: 15, exp: ge, fn: ge_2147483647_uint64}, ++ {idx: 15, exp: eq, fn: eq_2147483647_uint64}, ++ {idx: 15, exp: ne, fn: ne_2147483647_uint64}, ++ {idx: 16, exp: lt, fn: lt_2147483648_uint64}, ++ {idx: 16, exp: le, fn: le_2147483648_uint64}, ++ {idx: 16, exp: gt, fn: gt_2147483648_uint64}, ++ {idx: 16, exp: ge, fn: ge_2147483648_uint64}, ++ {idx: 16, exp: eq, fn: eq_2147483648_uint64}, ++ {idx: 16, exp: ne, fn: ne_2147483648_uint64}, ++ {idx: 17, exp: lt, fn: lt_4278190080_uint64}, ++ {idx: 17, exp: le, fn: le_4278190080_uint64}, ++ {idx: 17, exp: gt, fn: gt_4278190080_uint64}, ++ {idx: 17, exp: ge, fn: ge_4278190080_uint64}, ++ {idx: 17, exp: eq, fn: eq_4278190080_uint64}, ++ {idx: 17, exp: ne, fn: ne_4278190080_uint64}, ++ {idx: 18, exp: lt, fn: lt_4294967294_uint64}, ++ {idx: 18, exp: le, fn: le_4294967294_uint64}, ++ {idx: 18, exp: gt, fn: gt_4294967294_uint64}, ++ {idx: 18, exp: ge, fn: ge_4294967294_uint64}, ++ {idx: 18, exp: eq, fn: eq_4294967294_uint64}, ++ {idx: 18, exp: ne, fn: ne_4294967294_uint64}, ++ {idx: 19, exp: lt, fn: lt_4294967295_uint64}, ++ {idx: 19, exp: le, fn: le_4294967295_uint64}, ++ {idx: 19, exp: gt, fn: gt_4294967295_uint64}, ++ {idx: 19, exp: ge, fn: ge_4294967295_uint64}, ++ {idx: 19, exp: eq, fn: eq_4294967295_uint64}, ++ {idx: 19, exp: ne, fn: ne_4294967295_uint64}, ++ {idx: 20, exp: lt, fn: lt_4294967296_uint64}, ++ {idx: 20, exp: le, fn: le_4294967296_uint64}, ++ {idx: 20, exp: gt, fn: gt_4294967296_uint64}, ++ {idx: 20, exp: ge, fn: ge_4294967296_uint64}, ++ {idx: 20, exp: eq, fn: eq_4294967296_uint64}, ++ {idx: 20, exp: ne, fn: ne_4294967296_uint64}, ++ {idx: 21, exp: lt, fn: lt_1095216660480_uint64}, ++ {idx: 21, exp: le, fn: le_1095216660480_uint64}, ++ {idx: 21, exp: gt, fn: gt_1095216660480_uint64}, ++ {idx: 21, exp: ge, fn: ge_1095216660480_uint64}, ++ {idx: 21, exp: eq, fn: eq_1095216660480_uint64}, ++ {idx: 21, exp: ne, fn: ne_1095216660480_uint64}, ++ {idx: 22, exp: lt, fn: lt_9223372036854775806_uint64}, ++ {idx: 22, exp: le, fn: le_9223372036854775806_uint64}, ++ {idx: 22, exp: gt, fn: gt_9223372036854775806_uint64}, ++ {idx: 22, exp: ge, fn: ge_9223372036854775806_uint64}, ++ {idx: 22, exp: eq, fn: eq_9223372036854775806_uint64}, ++ {idx: 22, exp: ne, fn: ne_9223372036854775806_uint64}, ++ {idx: 23, exp: lt, fn: lt_9223372036854775807_uint64}, ++ {idx: 23, exp: le, fn: le_9223372036854775807_uint64}, ++ {idx: 23, exp: gt, fn: gt_9223372036854775807_uint64}, ++ {idx: 23, exp: ge, fn: ge_9223372036854775807_uint64}, ++ {idx: 23, exp: eq, fn: eq_9223372036854775807_uint64}, ++ {idx: 23, exp: ne, fn: ne_9223372036854775807_uint64}, ++ {idx: 24, exp: lt, fn: lt_9223372036854775808_uint64}, ++ {idx: 24, exp: le, fn: le_9223372036854775808_uint64}, ++ {idx: 24, exp: gt, fn: gt_9223372036854775808_uint64}, ++ {idx: 24, exp: ge, fn: ge_9223372036854775808_uint64}, ++ {idx: 24, exp: eq, fn: eq_9223372036854775808_uint64}, ++ {idx: 24, exp: ne, fn: ne_9223372036854775808_uint64}, ++ {idx: 25, exp: lt, fn: lt_18374686479671623680_uint64}, ++ {idx: 25, exp: le, fn: le_18374686479671623680_uint64}, ++ {idx: 25, exp: gt, fn: gt_18374686479671623680_uint64}, ++ {idx: 25, exp: ge, fn: ge_18374686479671623680_uint64}, ++ {idx: 25, exp: eq, fn: eq_18374686479671623680_uint64}, ++ {idx: 25, exp: ne, fn: ne_18374686479671623680_uint64}, ++ {idx: 26, exp: lt, fn: lt_18446744073709551614_uint64}, ++ {idx: 26, exp: le, fn: le_18446744073709551614_uint64}, ++ {idx: 26, exp: gt, fn: gt_18446744073709551614_uint64}, ++ {idx: 26, exp: ge, fn: ge_18446744073709551614_uint64}, ++ {idx: 26, exp: eq, fn: eq_18446744073709551614_uint64}, ++ {idx: 26, exp: ne, fn: ne_18446744073709551614_uint64}, ++ {idx: 27, exp: lt, fn: lt_18446744073709551615_uint64}, ++ {idx: 27, exp: le, fn: le_18446744073709551615_uint64}, ++ {idx: 27, exp: gt, fn: gt_18446744073709551615_uint64}, ++ {idx: 27, exp: ge, fn: ge_18446744073709551615_uint64}, ++ {idx: 27, exp: eq, fn: eq_18446744073709551615_uint64}, ++ {idx: 27, exp: ne, fn: ne_18446744073709551615_uint64}, ++} ++ ++// uint32 tests ++var uint32_vals = []uint32{ ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++ 256, ++ 32766, ++ 32767, ++ 32768, ++ 65534, ++ 65535, ++ 65536, ++ 2147483646, ++ 2147483647, ++ 2147483648, ++ 4278190080, ++ 4294967294, ++ 4294967295, ++} ++ ++func lt_0_uint32(x uint32) bool { return x < 0 } ++func le_0_uint32(x uint32) bool { return x <= 0 } ++func gt_0_uint32(x uint32) bool { return x > 0 } ++func ge_0_uint32(x uint32) bool { return x >= 0 } ++func eq_0_uint32(x uint32) bool { return x == 0 } ++func ne_0_uint32(x uint32) bool { return x != 0 } ++func lt_1_uint32(x uint32) bool { return x < 1 } ++func le_1_uint32(x uint32) bool { return x <= 1 } ++func gt_1_uint32(x uint32) bool { return x > 1 } ++func ge_1_uint32(x uint32) bool { return x >= 1 } ++func eq_1_uint32(x uint32) bool { return x == 1 } ++func ne_1_uint32(x uint32) bool { return x != 1 } ++func lt_126_uint32(x uint32) bool { return x < 126 } ++func le_126_uint32(x uint32) bool { return x <= 126 } ++func gt_126_uint32(x uint32) bool { return x > 126 } ++func ge_126_uint32(x uint32) bool { return x >= 126 } ++func eq_126_uint32(x uint32) bool { return x == 126 } ++func ne_126_uint32(x uint32) bool { return x != 126 } ++func lt_127_uint32(x uint32) bool { return x < 127 } ++func le_127_uint32(x uint32) bool { return x <= 127 } ++func gt_127_uint32(x uint32) bool { return x > 127 } ++func ge_127_uint32(x uint32) bool { return x >= 127 } ++func eq_127_uint32(x uint32) bool { return x == 127 } ++func ne_127_uint32(x uint32) bool { return x != 127 } ++func lt_128_uint32(x uint32) bool { return x < 128 } ++func le_128_uint32(x uint32) bool { return x <= 128 } ++func gt_128_uint32(x uint32) bool { return x > 128 } ++func ge_128_uint32(x uint32) bool { return x >= 128 } ++func eq_128_uint32(x uint32) bool { return x == 128 } ++func ne_128_uint32(x uint32) bool { return x != 128 } ++func lt_254_uint32(x uint32) bool { return x < 254 } ++func le_254_uint32(x uint32) bool { return x <= 254 } ++func gt_254_uint32(x uint32) bool { return x > 254 } ++func ge_254_uint32(x uint32) bool { return x >= 254 } ++func eq_254_uint32(x uint32) bool { return x == 254 } ++func ne_254_uint32(x uint32) bool { return x != 254 } ++func lt_255_uint32(x uint32) bool { return x < 255 } ++func le_255_uint32(x uint32) bool { return x <= 255 } ++func gt_255_uint32(x uint32) bool { return x > 255 } ++func ge_255_uint32(x uint32) bool { return x >= 255 } ++func eq_255_uint32(x uint32) bool { return x == 255 } ++func ne_255_uint32(x uint32) bool { return x != 255 } ++func lt_256_uint32(x uint32) bool { return x < 256 } ++func le_256_uint32(x uint32) bool { return x <= 256 } ++func gt_256_uint32(x uint32) bool { return x > 256 } ++func ge_256_uint32(x uint32) bool { return x >= 256 } ++func eq_256_uint32(x uint32) bool { return x == 256 } ++func ne_256_uint32(x uint32) bool { return x != 256 } ++func lt_32766_uint32(x uint32) bool { return x < 32766 } ++func le_32766_uint32(x uint32) bool { return x <= 32766 } ++func gt_32766_uint32(x uint32) bool { return x > 32766 } ++func ge_32766_uint32(x uint32) bool { return x >= 32766 } ++func eq_32766_uint32(x uint32) bool { return x == 32766 } ++func ne_32766_uint32(x uint32) bool { return x != 32766 } ++func lt_32767_uint32(x uint32) bool { return x < 32767 } ++func le_32767_uint32(x uint32) bool { return x <= 32767 } ++func gt_32767_uint32(x uint32) bool { return x > 32767 } ++func ge_32767_uint32(x uint32) bool { return x >= 32767 } ++func eq_32767_uint32(x uint32) bool { return x == 32767 } ++func ne_32767_uint32(x uint32) bool { return x != 32767 } ++func lt_32768_uint32(x uint32) bool { return x < 32768 } ++func le_32768_uint32(x uint32) bool { return x <= 32768 } ++func gt_32768_uint32(x uint32) bool { return x > 32768 } ++func ge_32768_uint32(x uint32) bool { return x >= 32768 } ++func eq_32768_uint32(x uint32) bool { return x == 32768 } ++func ne_32768_uint32(x uint32) bool { return x != 32768 } ++func lt_65534_uint32(x uint32) bool { return x < 65534 } ++func le_65534_uint32(x uint32) bool { return x <= 65534 } ++func gt_65534_uint32(x uint32) bool { return x > 65534 } ++func ge_65534_uint32(x uint32) bool { return x >= 65534 } ++func eq_65534_uint32(x uint32) bool { return x == 65534 } ++func ne_65534_uint32(x uint32) bool { return x != 65534 } ++func lt_65535_uint32(x uint32) bool { return x < 65535 } ++func le_65535_uint32(x uint32) bool { return x <= 65535 } ++func gt_65535_uint32(x uint32) bool { return x > 65535 } ++func ge_65535_uint32(x uint32) bool { return x >= 65535 } ++func eq_65535_uint32(x uint32) bool { return x == 65535 } ++func ne_65535_uint32(x uint32) bool { return x != 65535 } ++func lt_65536_uint32(x uint32) bool { return x < 65536 } ++func le_65536_uint32(x uint32) bool { return x <= 65536 } ++func gt_65536_uint32(x uint32) bool { return x > 65536 } ++func ge_65536_uint32(x uint32) bool { return x >= 65536 } ++func eq_65536_uint32(x uint32) bool { return x == 65536 } ++func ne_65536_uint32(x uint32) bool { return x != 65536 } ++func lt_2147483646_uint32(x uint32) bool { return x < 2147483646 } ++func le_2147483646_uint32(x uint32) bool { return x <= 2147483646 } ++func gt_2147483646_uint32(x uint32) bool { return x > 2147483646 } ++func ge_2147483646_uint32(x uint32) bool { return x >= 2147483646 } ++func eq_2147483646_uint32(x uint32) bool { return x == 2147483646 } ++func ne_2147483646_uint32(x uint32) bool { return x != 2147483646 } ++func lt_2147483647_uint32(x uint32) bool { return x < 2147483647 } ++func le_2147483647_uint32(x uint32) bool { return x <= 2147483647 } ++func gt_2147483647_uint32(x uint32) bool { return x > 2147483647 } ++func ge_2147483647_uint32(x uint32) bool { return x >= 2147483647 } ++func eq_2147483647_uint32(x uint32) bool { return x == 2147483647 } ++func ne_2147483647_uint32(x uint32) bool { return x != 2147483647 } ++func lt_2147483648_uint32(x uint32) bool { return x < 2147483648 } ++func le_2147483648_uint32(x uint32) bool { return x <= 2147483648 } ++func gt_2147483648_uint32(x uint32) bool { return x > 2147483648 } ++func ge_2147483648_uint32(x uint32) bool { return x >= 2147483648 } ++func eq_2147483648_uint32(x uint32) bool { return x == 2147483648 } ++func ne_2147483648_uint32(x uint32) bool { return x != 2147483648 } ++func lt_4278190080_uint32(x uint32) bool { return x < 4278190080 } ++func le_4278190080_uint32(x uint32) bool { return x <= 4278190080 } ++func gt_4278190080_uint32(x uint32) bool { return x > 4278190080 } ++func ge_4278190080_uint32(x uint32) bool { return x >= 4278190080 } ++func eq_4278190080_uint32(x uint32) bool { return x == 4278190080 } ++func ne_4278190080_uint32(x uint32) bool { return x != 4278190080 } ++func lt_4294967294_uint32(x uint32) bool { return x < 4294967294 } ++func le_4294967294_uint32(x uint32) bool { return x <= 4294967294 } ++func gt_4294967294_uint32(x uint32) bool { return x > 4294967294 } ++func ge_4294967294_uint32(x uint32) bool { return x >= 4294967294 } ++func eq_4294967294_uint32(x uint32) bool { return x == 4294967294 } ++func ne_4294967294_uint32(x uint32) bool { return x != 4294967294 } ++func lt_4294967295_uint32(x uint32) bool { return x < 4294967295 } ++func le_4294967295_uint32(x uint32) bool { return x <= 4294967295 } ++func gt_4294967295_uint32(x uint32) bool { return x > 4294967295 } ++func ge_4294967295_uint32(x uint32) bool { return x >= 4294967295 } ++func eq_4294967295_uint32(x uint32) bool { return x == 4294967295 } ++func ne_4294967295_uint32(x uint32) bool { return x != 4294967295 } ++ ++var uint32_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(uint32) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_0_uint32}, ++ {idx: 0, exp: le, fn: le_0_uint32}, ++ {idx: 0, exp: gt, fn: gt_0_uint32}, ++ {idx: 0, exp: ge, fn: ge_0_uint32}, ++ {idx: 0, exp: eq, fn: eq_0_uint32}, ++ {idx: 0, exp: ne, fn: ne_0_uint32}, ++ {idx: 1, exp: lt, fn: lt_1_uint32}, ++ {idx: 1, exp: le, fn: le_1_uint32}, ++ {idx: 1, exp: gt, fn: gt_1_uint32}, ++ {idx: 1, exp: ge, fn: ge_1_uint32}, ++ {idx: 1, exp: eq, fn: eq_1_uint32}, ++ {idx: 1, exp: ne, fn: ne_1_uint32}, ++ {idx: 2, exp: lt, fn: lt_126_uint32}, ++ {idx: 2, exp: le, fn: le_126_uint32}, ++ {idx: 2, exp: gt, fn: gt_126_uint32}, ++ {idx: 2, exp: ge, fn: ge_126_uint32}, ++ {idx: 2, exp: eq, fn: eq_126_uint32}, ++ {idx: 2, exp: ne, fn: ne_126_uint32}, ++ {idx: 3, exp: lt, fn: lt_127_uint32}, ++ {idx: 3, exp: le, fn: le_127_uint32}, ++ {idx: 3, exp: gt, fn: gt_127_uint32}, ++ {idx: 3, exp: ge, fn: ge_127_uint32}, ++ {idx: 3, exp: eq, fn: eq_127_uint32}, ++ {idx: 3, exp: ne, fn: ne_127_uint32}, ++ {idx: 4, exp: lt, fn: lt_128_uint32}, ++ {idx: 4, exp: le, fn: le_128_uint32}, ++ {idx: 4, exp: gt, fn: gt_128_uint32}, ++ {idx: 4, exp: ge, fn: ge_128_uint32}, ++ {idx: 4, exp: eq, fn: eq_128_uint32}, ++ {idx: 4, exp: ne, fn: ne_128_uint32}, ++ {idx: 5, exp: lt, fn: lt_254_uint32}, ++ {idx: 5, exp: le, fn: le_254_uint32}, ++ {idx: 5, exp: gt, fn: gt_254_uint32}, ++ {idx: 5, exp: ge, fn: ge_254_uint32}, ++ {idx: 5, exp: eq, fn: eq_254_uint32}, ++ {idx: 5, exp: ne, fn: ne_254_uint32}, ++ {idx: 6, exp: lt, fn: lt_255_uint32}, ++ {idx: 6, exp: le, fn: le_255_uint32}, ++ {idx: 6, exp: gt, fn: gt_255_uint32}, ++ {idx: 6, exp: ge, fn: ge_255_uint32}, ++ {idx: 6, exp: eq, fn: eq_255_uint32}, ++ {idx: 6, exp: ne, fn: ne_255_uint32}, ++ {idx: 7, exp: lt, fn: lt_256_uint32}, ++ {idx: 7, exp: le, fn: le_256_uint32}, ++ {idx: 7, exp: gt, fn: gt_256_uint32}, ++ {idx: 7, exp: ge, fn: ge_256_uint32}, ++ {idx: 7, exp: eq, fn: eq_256_uint32}, ++ {idx: 7, exp: ne, fn: ne_256_uint32}, ++ {idx: 8, exp: lt, fn: lt_32766_uint32}, ++ {idx: 8, exp: le, fn: le_32766_uint32}, ++ {idx: 8, exp: gt, fn: gt_32766_uint32}, ++ {idx: 8, exp: ge, fn: ge_32766_uint32}, ++ {idx: 8, exp: eq, fn: eq_32766_uint32}, ++ {idx: 8, exp: ne, fn: ne_32766_uint32}, ++ {idx: 9, exp: lt, fn: lt_32767_uint32}, ++ {idx: 9, exp: le, fn: le_32767_uint32}, ++ {idx: 9, exp: gt, fn: gt_32767_uint32}, ++ {idx: 9, exp: ge, fn: ge_32767_uint32}, ++ {idx: 9, exp: eq, fn: eq_32767_uint32}, ++ {idx: 9, exp: ne, fn: ne_32767_uint32}, ++ {idx: 10, exp: lt, fn: lt_32768_uint32}, ++ {idx: 10, exp: le, fn: le_32768_uint32}, ++ {idx: 10, exp: gt, fn: gt_32768_uint32}, ++ {idx: 10, exp: ge, fn: ge_32768_uint32}, ++ {idx: 10, exp: eq, fn: eq_32768_uint32}, ++ {idx: 10, exp: ne, fn: ne_32768_uint32}, ++ {idx: 11, exp: lt, fn: lt_65534_uint32}, ++ {idx: 11, exp: le, fn: le_65534_uint32}, ++ {idx: 11, exp: gt, fn: gt_65534_uint32}, ++ {idx: 11, exp: ge, fn: ge_65534_uint32}, ++ {idx: 11, exp: eq, fn: eq_65534_uint32}, ++ {idx: 11, exp: ne, fn: ne_65534_uint32}, ++ {idx: 12, exp: lt, fn: lt_65535_uint32}, ++ {idx: 12, exp: le, fn: le_65535_uint32}, ++ {idx: 12, exp: gt, fn: gt_65535_uint32}, ++ {idx: 12, exp: ge, fn: ge_65535_uint32}, ++ {idx: 12, exp: eq, fn: eq_65535_uint32}, ++ {idx: 12, exp: ne, fn: ne_65535_uint32}, ++ {idx: 13, exp: lt, fn: lt_65536_uint32}, ++ {idx: 13, exp: le, fn: le_65536_uint32}, ++ {idx: 13, exp: gt, fn: gt_65536_uint32}, ++ {idx: 13, exp: ge, fn: ge_65536_uint32}, ++ {idx: 13, exp: eq, fn: eq_65536_uint32}, ++ {idx: 13, exp: ne, fn: ne_65536_uint32}, ++ {idx: 14, exp: lt, fn: lt_2147483646_uint32}, ++ {idx: 14, exp: le, fn: le_2147483646_uint32}, ++ {idx: 14, exp: gt, fn: gt_2147483646_uint32}, ++ {idx: 14, exp: ge, fn: ge_2147483646_uint32}, ++ {idx: 14, exp: eq, fn: eq_2147483646_uint32}, ++ {idx: 14, exp: ne, fn: ne_2147483646_uint32}, ++ {idx: 15, exp: lt, fn: lt_2147483647_uint32}, ++ {idx: 15, exp: le, fn: le_2147483647_uint32}, ++ {idx: 15, exp: gt, fn: gt_2147483647_uint32}, ++ {idx: 15, exp: ge, fn: ge_2147483647_uint32}, ++ {idx: 15, exp: eq, fn: eq_2147483647_uint32}, ++ {idx: 15, exp: ne, fn: ne_2147483647_uint32}, ++ {idx: 16, exp: lt, fn: lt_2147483648_uint32}, ++ {idx: 16, exp: le, fn: le_2147483648_uint32}, ++ {idx: 16, exp: gt, fn: gt_2147483648_uint32}, ++ {idx: 16, exp: ge, fn: ge_2147483648_uint32}, ++ {idx: 16, exp: eq, fn: eq_2147483648_uint32}, ++ {idx: 16, exp: ne, fn: ne_2147483648_uint32}, ++ {idx: 17, exp: lt, fn: lt_4278190080_uint32}, ++ {idx: 17, exp: le, fn: le_4278190080_uint32}, ++ {idx: 17, exp: gt, fn: gt_4278190080_uint32}, ++ {idx: 17, exp: ge, fn: ge_4278190080_uint32}, ++ {idx: 17, exp: eq, fn: eq_4278190080_uint32}, ++ {idx: 17, exp: ne, fn: ne_4278190080_uint32}, ++ {idx: 18, exp: lt, fn: lt_4294967294_uint32}, ++ {idx: 18, exp: le, fn: le_4294967294_uint32}, ++ {idx: 18, exp: gt, fn: gt_4294967294_uint32}, ++ {idx: 18, exp: ge, fn: ge_4294967294_uint32}, ++ {idx: 18, exp: eq, fn: eq_4294967294_uint32}, ++ {idx: 18, exp: ne, fn: ne_4294967294_uint32}, ++ {idx: 19, exp: lt, fn: lt_4294967295_uint32}, ++ {idx: 19, exp: le, fn: le_4294967295_uint32}, ++ {idx: 19, exp: gt, fn: gt_4294967295_uint32}, ++ {idx: 19, exp: ge, fn: ge_4294967295_uint32}, ++ {idx: 19, exp: eq, fn: eq_4294967295_uint32}, ++ {idx: 19, exp: ne, fn: ne_4294967295_uint32}, ++} ++ ++// uint16 tests ++var uint16_vals = []uint16{ ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++ 256, ++ 32766, ++ 32767, ++ 32768, ++ 65534, ++ 65535, ++} ++ ++func lt_0_uint16(x uint16) bool { return x < 0 } ++func le_0_uint16(x uint16) bool { return x <= 0 } ++func gt_0_uint16(x uint16) bool { return x > 0 } ++func ge_0_uint16(x uint16) bool { return x >= 0 } ++func eq_0_uint16(x uint16) bool { return x == 0 } ++func ne_0_uint16(x uint16) bool { return x != 0 } ++func lt_1_uint16(x uint16) bool { return x < 1 } ++func le_1_uint16(x uint16) bool { return x <= 1 } ++func gt_1_uint16(x uint16) bool { return x > 1 } ++func ge_1_uint16(x uint16) bool { return x >= 1 } ++func eq_1_uint16(x uint16) bool { return x == 1 } ++func ne_1_uint16(x uint16) bool { return x != 1 } ++func lt_126_uint16(x uint16) bool { return x < 126 } ++func le_126_uint16(x uint16) bool { return x <= 126 } ++func gt_126_uint16(x uint16) bool { return x > 126 } ++func ge_126_uint16(x uint16) bool { return x >= 126 } ++func eq_126_uint16(x uint16) bool { return x == 126 } ++func ne_126_uint16(x uint16) bool { return x != 126 } ++func lt_127_uint16(x uint16) bool { return x < 127 } ++func le_127_uint16(x uint16) bool { return x <= 127 } ++func gt_127_uint16(x uint16) bool { return x > 127 } ++func ge_127_uint16(x uint16) bool { return x >= 127 } ++func eq_127_uint16(x uint16) bool { return x == 127 } ++func ne_127_uint16(x uint16) bool { return x != 127 } ++func lt_128_uint16(x uint16) bool { return x < 128 } ++func le_128_uint16(x uint16) bool { return x <= 128 } ++func gt_128_uint16(x uint16) bool { return x > 128 } ++func ge_128_uint16(x uint16) bool { return x >= 128 } ++func eq_128_uint16(x uint16) bool { return x == 128 } ++func ne_128_uint16(x uint16) bool { return x != 128 } ++func lt_254_uint16(x uint16) bool { return x < 254 } ++func le_254_uint16(x uint16) bool { return x <= 254 } ++func gt_254_uint16(x uint16) bool { return x > 254 } ++func ge_254_uint16(x uint16) bool { return x >= 254 } ++func eq_254_uint16(x uint16) bool { return x == 254 } ++func ne_254_uint16(x uint16) bool { return x != 254 } ++func lt_255_uint16(x uint16) bool { return x < 255 } ++func le_255_uint16(x uint16) bool { return x <= 255 } ++func gt_255_uint16(x uint16) bool { return x > 255 } ++func ge_255_uint16(x uint16) bool { return x >= 255 } ++func eq_255_uint16(x uint16) bool { return x == 255 } ++func ne_255_uint16(x uint16) bool { return x != 255 } ++func lt_256_uint16(x uint16) bool { return x < 256 } ++func le_256_uint16(x uint16) bool { return x <= 256 } ++func gt_256_uint16(x uint16) bool { return x > 256 } ++func ge_256_uint16(x uint16) bool { return x >= 256 } ++func eq_256_uint16(x uint16) bool { return x == 256 } ++func ne_256_uint16(x uint16) bool { return x != 256 } ++func lt_32766_uint16(x uint16) bool { return x < 32766 } ++func le_32766_uint16(x uint16) bool { return x <= 32766 } ++func gt_32766_uint16(x uint16) bool { return x > 32766 } ++func ge_32766_uint16(x uint16) bool { return x >= 32766 } ++func eq_32766_uint16(x uint16) bool { return x == 32766 } ++func ne_32766_uint16(x uint16) bool { return x != 32766 } ++func lt_32767_uint16(x uint16) bool { return x < 32767 } ++func le_32767_uint16(x uint16) bool { return x <= 32767 } ++func gt_32767_uint16(x uint16) bool { return x > 32767 } ++func ge_32767_uint16(x uint16) bool { return x >= 32767 } ++func eq_32767_uint16(x uint16) bool { return x == 32767 } ++func ne_32767_uint16(x uint16) bool { return x != 32767 } ++func lt_32768_uint16(x uint16) bool { return x < 32768 } ++func le_32768_uint16(x uint16) bool { return x <= 32768 } ++func gt_32768_uint16(x uint16) bool { return x > 32768 } ++func ge_32768_uint16(x uint16) bool { return x >= 32768 } ++func eq_32768_uint16(x uint16) bool { return x == 32768 } ++func ne_32768_uint16(x uint16) bool { return x != 32768 } ++func lt_65534_uint16(x uint16) bool { return x < 65534 } ++func le_65534_uint16(x uint16) bool { return x <= 65534 } ++func gt_65534_uint16(x uint16) bool { return x > 65534 } ++func ge_65534_uint16(x uint16) bool { return x >= 65534 } ++func eq_65534_uint16(x uint16) bool { return x == 65534 } ++func ne_65534_uint16(x uint16) bool { return x != 65534 } ++func lt_65535_uint16(x uint16) bool { return x < 65535 } ++func le_65535_uint16(x uint16) bool { return x <= 65535 } ++func gt_65535_uint16(x uint16) bool { return x > 65535 } ++func ge_65535_uint16(x uint16) bool { return x >= 65535 } ++func eq_65535_uint16(x uint16) bool { return x == 65535 } ++func ne_65535_uint16(x uint16) bool { return x != 65535 } ++ ++var uint16_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(uint16) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_0_uint16}, ++ {idx: 0, exp: le, fn: le_0_uint16}, ++ {idx: 0, exp: gt, fn: gt_0_uint16}, ++ {idx: 0, exp: ge, fn: ge_0_uint16}, ++ {idx: 0, exp: eq, fn: eq_0_uint16}, ++ {idx: 0, exp: ne, fn: ne_0_uint16}, ++ {idx: 1, exp: lt, fn: lt_1_uint16}, ++ {idx: 1, exp: le, fn: le_1_uint16}, ++ {idx: 1, exp: gt, fn: gt_1_uint16}, ++ {idx: 1, exp: ge, fn: ge_1_uint16}, ++ {idx: 1, exp: eq, fn: eq_1_uint16}, ++ {idx: 1, exp: ne, fn: ne_1_uint16}, ++ {idx: 2, exp: lt, fn: lt_126_uint16}, ++ {idx: 2, exp: le, fn: le_126_uint16}, ++ {idx: 2, exp: gt, fn: gt_126_uint16}, ++ {idx: 2, exp: ge, fn: ge_126_uint16}, ++ {idx: 2, exp: eq, fn: eq_126_uint16}, ++ {idx: 2, exp: ne, fn: ne_126_uint16}, ++ {idx: 3, exp: lt, fn: lt_127_uint16}, ++ {idx: 3, exp: le, fn: le_127_uint16}, ++ {idx: 3, exp: gt, fn: gt_127_uint16}, ++ {idx: 3, exp: ge, fn: ge_127_uint16}, ++ {idx: 3, exp: eq, fn: eq_127_uint16}, ++ {idx: 3, exp: ne, fn: ne_127_uint16}, ++ {idx: 4, exp: lt, fn: lt_128_uint16}, ++ {idx: 4, exp: le, fn: le_128_uint16}, ++ {idx: 4, exp: gt, fn: gt_128_uint16}, ++ {idx: 4, exp: ge, fn: ge_128_uint16}, ++ {idx: 4, exp: eq, fn: eq_128_uint16}, ++ {idx: 4, exp: ne, fn: ne_128_uint16}, ++ {idx: 5, exp: lt, fn: lt_254_uint16}, ++ {idx: 5, exp: le, fn: le_254_uint16}, ++ {idx: 5, exp: gt, fn: gt_254_uint16}, ++ {idx: 5, exp: ge, fn: ge_254_uint16}, ++ {idx: 5, exp: eq, fn: eq_254_uint16}, ++ {idx: 5, exp: ne, fn: ne_254_uint16}, ++ {idx: 6, exp: lt, fn: lt_255_uint16}, ++ {idx: 6, exp: le, fn: le_255_uint16}, ++ {idx: 6, exp: gt, fn: gt_255_uint16}, ++ {idx: 6, exp: ge, fn: ge_255_uint16}, ++ {idx: 6, exp: eq, fn: eq_255_uint16}, ++ {idx: 6, exp: ne, fn: ne_255_uint16}, ++ {idx: 7, exp: lt, fn: lt_256_uint16}, ++ {idx: 7, exp: le, fn: le_256_uint16}, ++ {idx: 7, exp: gt, fn: gt_256_uint16}, ++ {idx: 7, exp: ge, fn: ge_256_uint16}, ++ {idx: 7, exp: eq, fn: eq_256_uint16}, ++ {idx: 7, exp: ne, fn: ne_256_uint16}, ++ {idx: 8, exp: lt, fn: lt_32766_uint16}, ++ {idx: 8, exp: le, fn: le_32766_uint16}, ++ {idx: 8, exp: gt, fn: gt_32766_uint16}, ++ {idx: 8, exp: ge, fn: ge_32766_uint16}, ++ {idx: 8, exp: eq, fn: eq_32766_uint16}, ++ {idx: 8, exp: ne, fn: ne_32766_uint16}, ++ {idx: 9, exp: lt, fn: lt_32767_uint16}, ++ {idx: 9, exp: le, fn: le_32767_uint16}, ++ {idx: 9, exp: gt, fn: gt_32767_uint16}, ++ {idx: 9, exp: ge, fn: ge_32767_uint16}, ++ {idx: 9, exp: eq, fn: eq_32767_uint16}, ++ {idx: 9, exp: ne, fn: ne_32767_uint16}, ++ {idx: 10, exp: lt, fn: lt_32768_uint16}, ++ {idx: 10, exp: le, fn: le_32768_uint16}, ++ {idx: 10, exp: gt, fn: gt_32768_uint16}, ++ {idx: 10, exp: ge, fn: ge_32768_uint16}, ++ {idx: 10, exp: eq, fn: eq_32768_uint16}, ++ {idx: 10, exp: ne, fn: ne_32768_uint16}, ++ {idx: 11, exp: lt, fn: lt_65534_uint16}, ++ {idx: 11, exp: le, fn: le_65534_uint16}, ++ {idx: 11, exp: gt, fn: gt_65534_uint16}, ++ {idx: 11, exp: ge, fn: ge_65534_uint16}, ++ {idx: 11, exp: eq, fn: eq_65534_uint16}, ++ {idx: 11, exp: ne, fn: ne_65534_uint16}, ++ {idx: 12, exp: lt, fn: lt_65535_uint16}, ++ {idx: 12, exp: le, fn: le_65535_uint16}, ++ {idx: 12, exp: gt, fn: gt_65535_uint16}, ++ {idx: 12, exp: ge, fn: ge_65535_uint16}, ++ {idx: 12, exp: eq, fn: eq_65535_uint16}, ++ {idx: 12, exp: ne, fn: ne_65535_uint16}, ++} ++ ++// uint8 tests ++var uint8_vals = []uint8{ ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++} ++ ++func lt_0_uint8(x uint8) bool { return x < 0 } ++func le_0_uint8(x uint8) bool { return x <= 0 } ++func gt_0_uint8(x uint8) bool { return x > 0 } ++func ge_0_uint8(x uint8) bool { return x >= 0 } ++func eq_0_uint8(x uint8) bool { return x == 0 } ++func ne_0_uint8(x uint8) bool { return x != 0 } ++func lt_1_uint8(x uint8) bool { return x < 1 } ++func le_1_uint8(x uint8) bool { return x <= 1 } ++func gt_1_uint8(x uint8) bool { return x > 1 } ++func ge_1_uint8(x uint8) bool { return x >= 1 } ++func eq_1_uint8(x uint8) bool { return x == 1 } ++func ne_1_uint8(x uint8) bool { return x != 1 } ++func lt_126_uint8(x uint8) bool { return x < 126 } ++func le_126_uint8(x uint8) bool { return x <= 126 } ++func gt_126_uint8(x uint8) bool { return x > 126 } ++func ge_126_uint8(x uint8) bool { return x >= 126 } ++func eq_126_uint8(x uint8) bool { return x == 126 } ++func ne_126_uint8(x uint8) bool { return x != 126 } ++func lt_127_uint8(x uint8) bool { return x < 127 } ++func le_127_uint8(x uint8) bool { return x <= 127 } ++func gt_127_uint8(x uint8) bool { return x > 127 } ++func ge_127_uint8(x uint8) bool { return x >= 127 } ++func eq_127_uint8(x uint8) bool { return x == 127 } ++func ne_127_uint8(x uint8) bool { return x != 127 } ++func lt_128_uint8(x uint8) bool { return x < 128 } ++func le_128_uint8(x uint8) bool { return x <= 128 } ++func gt_128_uint8(x uint8) bool { return x > 128 } ++func ge_128_uint8(x uint8) bool { return x >= 128 } ++func eq_128_uint8(x uint8) bool { return x == 128 } ++func ne_128_uint8(x uint8) bool { return x != 128 } ++func lt_254_uint8(x uint8) bool { return x < 254 } ++func le_254_uint8(x uint8) bool { return x <= 254 } ++func gt_254_uint8(x uint8) bool { return x > 254 } ++func ge_254_uint8(x uint8) bool { return x >= 254 } ++func eq_254_uint8(x uint8) bool { return x == 254 } ++func ne_254_uint8(x uint8) bool { return x != 254 } ++func lt_255_uint8(x uint8) bool { return x < 255 } ++func le_255_uint8(x uint8) bool { return x <= 255 } ++func gt_255_uint8(x uint8) bool { return x > 255 } ++func ge_255_uint8(x uint8) bool { return x >= 255 } ++func eq_255_uint8(x uint8) bool { return x == 255 } ++func ne_255_uint8(x uint8) bool { return x != 255 } ++ ++var uint8_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(uint8) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_0_uint8}, ++ {idx: 0, exp: le, fn: le_0_uint8}, ++ {idx: 0, exp: gt, fn: gt_0_uint8}, ++ {idx: 0, exp: ge, fn: ge_0_uint8}, ++ {idx: 0, exp: eq, fn: eq_0_uint8}, ++ {idx: 0, exp: ne, fn: ne_0_uint8}, ++ {idx: 1, exp: lt, fn: lt_1_uint8}, ++ {idx: 1, exp: le, fn: le_1_uint8}, ++ {idx: 1, exp: gt, fn: gt_1_uint8}, ++ {idx: 1, exp: ge, fn: ge_1_uint8}, ++ {idx: 1, exp: eq, fn: eq_1_uint8}, ++ {idx: 1, exp: ne, fn: ne_1_uint8}, ++ {idx: 2, exp: lt, fn: lt_126_uint8}, ++ {idx: 2, exp: le, fn: le_126_uint8}, ++ {idx: 2, exp: gt, fn: gt_126_uint8}, ++ {idx: 2, exp: ge, fn: ge_126_uint8}, ++ {idx: 2, exp: eq, fn: eq_126_uint8}, ++ {idx: 2, exp: ne, fn: ne_126_uint8}, ++ {idx: 3, exp: lt, fn: lt_127_uint8}, ++ {idx: 3, exp: le, fn: le_127_uint8}, ++ {idx: 3, exp: gt, fn: gt_127_uint8}, ++ {idx: 3, exp: ge, fn: ge_127_uint8}, ++ {idx: 3, exp: eq, fn: eq_127_uint8}, ++ {idx: 3, exp: ne, fn: ne_127_uint8}, ++ {idx: 4, exp: lt, fn: lt_128_uint8}, ++ {idx: 4, exp: le, fn: le_128_uint8}, ++ {idx: 4, exp: gt, fn: gt_128_uint8}, ++ {idx: 4, exp: ge, fn: ge_128_uint8}, ++ {idx: 4, exp: eq, fn: eq_128_uint8}, ++ {idx: 4, exp: ne, fn: ne_128_uint8}, ++ {idx: 5, exp: lt, fn: lt_254_uint8}, ++ {idx: 5, exp: le, fn: le_254_uint8}, ++ {idx: 5, exp: gt, fn: gt_254_uint8}, ++ {idx: 5, exp: ge, fn: ge_254_uint8}, ++ {idx: 5, exp: eq, fn: eq_254_uint8}, ++ {idx: 5, exp: ne, fn: ne_254_uint8}, ++ {idx: 6, exp: lt, fn: lt_255_uint8}, ++ {idx: 6, exp: le, fn: le_255_uint8}, ++ {idx: 6, exp: gt, fn: gt_255_uint8}, ++ {idx: 6, exp: ge, fn: ge_255_uint8}, ++ {idx: 6, exp: eq, fn: eq_255_uint8}, ++ {idx: 6, exp: ne, fn: ne_255_uint8}, ++} ++ ++// int64 tests ++var int64_vals = []int64{ ++ -9223372036854775808, ++ -9223372036854775807, ++ -2147483649, ++ -2147483648, ++ -2147483647, ++ -32769, ++ -32768, ++ -32767, ++ -129, ++ -128, ++ -127, ++ -1, ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++ 256, ++ 32766, ++ 32767, ++ 32768, ++ 65534, ++ 65535, ++ 65536, ++ 2147483646, ++ 2147483647, ++ 2147483648, ++ 4278190080, ++ 4294967294, ++ 4294967295, ++ 4294967296, ++ 1095216660480, ++ 9223372036854775806, ++ 9223372036854775807, ++} ++ ++func lt_neg9223372036854775808_int64(x int64) bool { return x < -9223372036854775808 } ++func le_neg9223372036854775808_int64(x int64) bool { return x <= -9223372036854775808 } ++func gt_neg9223372036854775808_int64(x int64) bool { return x > -9223372036854775808 } ++func ge_neg9223372036854775808_int64(x int64) bool { return x >= -9223372036854775808 } ++func eq_neg9223372036854775808_int64(x int64) bool { return x == -9223372036854775808 } ++func ne_neg9223372036854775808_int64(x int64) bool { return x != -9223372036854775808 } ++func lt_neg9223372036854775807_int64(x int64) bool { return x < -9223372036854775807 } ++func le_neg9223372036854775807_int64(x int64) bool { return x <= -9223372036854775807 } ++func gt_neg9223372036854775807_int64(x int64) bool { return x > -9223372036854775807 } ++func ge_neg9223372036854775807_int64(x int64) bool { return x >= -9223372036854775807 } ++func eq_neg9223372036854775807_int64(x int64) bool { return x == -9223372036854775807 } ++func ne_neg9223372036854775807_int64(x int64) bool { return x != -9223372036854775807 } ++func lt_neg2147483649_int64(x int64) bool { return x < -2147483649 } ++func le_neg2147483649_int64(x int64) bool { return x <= -2147483649 } ++func gt_neg2147483649_int64(x int64) bool { return x > -2147483649 } ++func ge_neg2147483649_int64(x int64) bool { return x >= -2147483649 } ++func eq_neg2147483649_int64(x int64) bool { return x == -2147483649 } ++func ne_neg2147483649_int64(x int64) bool { return x != -2147483649 } ++func lt_neg2147483648_int64(x int64) bool { return x < -2147483648 } ++func le_neg2147483648_int64(x int64) bool { return x <= -2147483648 } ++func gt_neg2147483648_int64(x int64) bool { return x > -2147483648 } ++func ge_neg2147483648_int64(x int64) bool { return x >= -2147483648 } ++func eq_neg2147483648_int64(x int64) bool { return x == -2147483648 } ++func ne_neg2147483648_int64(x int64) bool { return x != -2147483648 } ++func lt_neg2147483647_int64(x int64) bool { return x < -2147483647 } ++func le_neg2147483647_int64(x int64) bool { return x <= -2147483647 } ++func gt_neg2147483647_int64(x int64) bool { return x > -2147483647 } ++func ge_neg2147483647_int64(x int64) bool { return x >= -2147483647 } ++func eq_neg2147483647_int64(x int64) bool { return x == -2147483647 } ++func ne_neg2147483647_int64(x int64) bool { return x != -2147483647 } ++func lt_neg32769_int64(x int64) bool { return x < -32769 } ++func le_neg32769_int64(x int64) bool { return x <= -32769 } ++func gt_neg32769_int64(x int64) bool { return x > -32769 } ++func ge_neg32769_int64(x int64) bool { return x >= -32769 } ++func eq_neg32769_int64(x int64) bool { return x == -32769 } ++func ne_neg32769_int64(x int64) bool { return x != -32769 } ++func lt_neg32768_int64(x int64) bool { return x < -32768 } ++func le_neg32768_int64(x int64) bool { return x <= -32768 } ++func gt_neg32768_int64(x int64) bool { return x > -32768 } ++func ge_neg32768_int64(x int64) bool { return x >= -32768 } ++func eq_neg32768_int64(x int64) bool { return x == -32768 } ++func ne_neg32768_int64(x int64) bool { return x != -32768 } ++func lt_neg32767_int64(x int64) bool { return x < -32767 } ++func le_neg32767_int64(x int64) bool { return x <= -32767 } ++func gt_neg32767_int64(x int64) bool { return x > -32767 } ++func ge_neg32767_int64(x int64) bool { return x >= -32767 } ++func eq_neg32767_int64(x int64) bool { return x == -32767 } ++func ne_neg32767_int64(x int64) bool { return x != -32767 } ++func lt_neg129_int64(x int64) bool { return x < -129 } ++func le_neg129_int64(x int64) bool { return x <= -129 } ++func gt_neg129_int64(x int64) bool { return x > -129 } ++func ge_neg129_int64(x int64) bool { return x >= -129 } ++func eq_neg129_int64(x int64) bool { return x == -129 } ++func ne_neg129_int64(x int64) bool { return x != -129 } ++func lt_neg128_int64(x int64) bool { return x < -128 } ++func le_neg128_int64(x int64) bool { return x <= -128 } ++func gt_neg128_int64(x int64) bool { return x > -128 } ++func ge_neg128_int64(x int64) bool { return x >= -128 } ++func eq_neg128_int64(x int64) bool { return x == -128 } ++func ne_neg128_int64(x int64) bool { return x != -128 } ++func lt_neg127_int64(x int64) bool { return x < -127 } ++func le_neg127_int64(x int64) bool { return x <= -127 } ++func gt_neg127_int64(x int64) bool { return x > -127 } ++func ge_neg127_int64(x int64) bool { return x >= -127 } ++func eq_neg127_int64(x int64) bool { return x == -127 } ++func ne_neg127_int64(x int64) bool { return x != -127 } ++func lt_neg1_int64(x int64) bool { return x < -1 } ++func le_neg1_int64(x int64) bool { return x <= -1 } ++func gt_neg1_int64(x int64) bool { return x > -1 } ++func ge_neg1_int64(x int64) bool { return x >= -1 } ++func eq_neg1_int64(x int64) bool { return x == -1 } ++func ne_neg1_int64(x int64) bool { return x != -1 } ++func lt_0_int64(x int64) bool { return x < 0 } ++func le_0_int64(x int64) bool { return x <= 0 } ++func gt_0_int64(x int64) bool { return x > 0 } ++func ge_0_int64(x int64) bool { return x >= 0 } ++func eq_0_int64(x int64) bool { return x == 0 } ++func ne_0_int64(x int64) bool { return x != 0 } ++func lt_1_int64(x int64) bool { return x < 1 } ++func le_1_int64(x int64) bool { return x <= 1 } ++func gt_1_int64(x int64) bool { return x > 1 } ++func ge_1_int64(x int64) bool { return x >= 1 } ++func eq_1_int64(x int64) bool { return x == 1 } ++func ne_1_int64(x int64) bool { return x != 1 } ++func lt_126_int64(x int64) bool { return x < 126 } ++func le_126_int64(x int64) bool { return x <= 126 } ++func gt_126_int64(x int64) bool { return x > 126 } ++func ge_126_int64(x int64) bool { return x >= 126 } ++func eq_126_int64(x int64) bool { return x == 126 } ++func ne_126_int64(x int64) bool { return x != 126 } ++func lt_127_int64(x int64) bool { return x < 127 } ++func le_127_int64(x int64) bool { return x <= 127 } ++func gt_127_int64(x int64) bool { return x > 127 } ++func ge_127_int64(x int64) bool { return x >= 127 } ++func eq_127_int64(x int64) bool { return x == 127 } ++func ne_127_int64(x int64) bool { return x != 127 } ++func lt_128_int64(x int64) bool { return x < 128 } ++func le_128_int64(x int64) bool { return x <= 128 } ++func gt_128_int64(x int64) bool { return x > 128 } ++func ge_128_int64(x int64) bool { return x >= 128 } ++func eq_128_int64(x int64) bool { return x == 128 } ++func ne_128_int64(x int64) bool { return x != 128 } ++func lt_254_int64(x int64) bool { return x < 254 } ++func le_254_int64(x int64) bool { return x <= 254 } ++func gt_254_int64(x int64) bool { return x > 254 } ++func ge_254_int64(x int64) bool { return x >= 254 } ++func eq_254_int64(x int64) bool { return x == 254 } ++func ne_254_int64(x int64) bool { return x != 254 } ++func lt_255_int64(x int64) bool { return x < 255 } ++func le_255_int64(x int64) bool { return x <= 255 } ++func gt_255_int64(x int64) bool { return x > 255 } ++func ge_255_int64(x int64) bool { return x >= 255 } ++func eq_255_int64(x int64) bool { return x == 255 } ++func ne_255_int64(x int64) bool { return x != 255 } ++func lt_256_int64(x int64) bool { return x < 256 } ++func le_256_int64(x int64) bool { return x <= 256 } ++func gt_256_int64(x int64) bool { return x > 256 } ++func ge_256_int64(x int64) bool { return x >= 256 } ++func eq_256_int64(x int64) bool { return x == 256 } ++func ne_256_int64(x int64) bool { return x != 256 } ++func lt_32766_int64(x int64) bool { return x < 32766 } ++func le_32766_int64(x int64) bool { return x <= 32766 } ++func gt_32766_int64(x int64) bool { return x > 32766 } ++func ge_32766_int64(x int64) bool { return x >= 32766 } ++func eq_32766_int64(x int64) bool { return x == 32766 } ++func ne_32766_int64(x int64) bool { return x != 32766 } ++func lt_32767_int64(x int64) bool { return x < 32767 } ++func le_32767_int64(x int64) bool { return x <= 32767 } ++func gt_32767_int64(x int64) bool { return x > 32767 } ++func ge_32767_int64(x int64) bool { return x >= 32767 } ++func eq_32767_int64(x int64) bool { return x == 32767 } ++func ne_32767_int64(x int64) bool { return x != 32767 } ++func lt_32768_int64(x int64) bool { return x < 32768 } ++func le_32768_int64(x int64) bool { return x <= 32768 } ++func gt_32768_int64(x int64) bool { return x > 32768 } ++func ge_32768_int64(x int64) bool { return x >= 32768 } ++func eq_32768_int64(x int64) bool { return x == 32768 } ++func ne_32768_int64(x int64) bool { return x != 32768 } ++func lt_65534_int64(x int64) bool { return x < 65534 } ++func le_65534_int64(x int64) bool { return x <= 65534 } ++func gt_65534_int64(x int64) bool { return x > 65534 } ++func ge_65534_int64(x int64) bool { return x >= 65534 } ++func eq_65534_int64(x int64) bool { return x == 65534 } ++func ne_65534_int64(x int64) bool { return x != 65534 } ++func lt_65535_int64(x int64) bool { return x < 65535 } ++func le_65535_int64(x int64) bool { return x <= 65535 } ++func gt_65535_int64(x int64) bool { return x > 65535 } ++func ge_65535_int64(x int64) bool { return x >= 65535 } ++func eq_65535_int64(x int64) bool { return x == 65535 } ++func ne_65535_int64(x int64) bool { return x != 65535 } ++func lt_65536_int64(x int64) bool { return x < 65536 } ++func le_65536_int64(x int64) bool { return x <= 65536 } ++func gt_65536_int64(x int64) bool { return x > 65536 } ++func ge_65536_int64(x int64) bool { return x >= 65536 } ++func eq_65536_int64(x int64) bool { return x == 65536 } ++func ne_65536_int64(x int64) bool { return x != 65536 } ++func lt_2147483646_int64(x int64) bool { return x < 2147483646 } ++func le_2147483646_int64(x int64) bool { return x <= 2147483646 } ++func gt_2147483646_int64(x int64) bool { return x > 2147483646 } ++func ge_2147483646_int64(x int64) bool { return x >= 2147483646 } ++func eq_2147483646_int64(x int64) bool { return x == 2147483646 } ++func ne_2147483646_int64(x int64) bool { return x != 2147483646 } ++func lt_2147483647_int64(x int64) bool { return x < 2147483647 } ++func le_2147483647_int64(x int64) bool { return x <= 2147483647 } ++func gt_2147483647_int64(x int64) bool { return x > 2147483647 } ++func ge_2147483647_int64(x int64) bool { return x >= 2147483647 } ++func eq_2147483647_int64(x int64) bool { return x == 2147483647 } ++func ne_2147483647_int64(x int64) bool { return x != 2147483647 } ++func lt_2147483648_int64(x int64) bool { return x < 2147483648 } ++func le_2147483648_int64(x int64) bool { return x <= 2147483648 } ++func gt_2147483648_int64(x int64) bool { return x > 2147483648 } ++func ge_2147483648_int64(x int64) bool { return x >= 2147483648 } ++func eq_2147483648_int64(x int64) bool { return x == 2147483648 } ++func ne_2147483648_int64(x int64) bool { return x != 2147483648 } ++func lt_4278190080_int64(x int64) bool { return x < 4278190080 } ++func le_4278190080_int64(x int64) bool { return x <= 4278190080 } ++func gt_4278190080_int64(x int64) bool { return x > 4278190080 } ++func ge_4278190080_int64(x int64) bool { return x >= 4278190080 } ++func eq_4278190080_int64(x int64) bool { return x == 4278190080 } ++func ne_4278190080_int64(x int64) bool { return x != 4278190080 } ++func lt_4294967294_int64(x int64) bool { return x < 4294967294 } ++func le_4294967294_int64(x int64) bool { return x <= 4294967294 } ++func gt_4294967294_int64(x int64) bool { return x > 4294967294 } ++func ge_4294967294_int64(x int64) bool { return x >= 4294967294 } ++func eq_4294967294_int64(x int64) bool { return x == 4294967294 } ++func ne_4294967294_int64(x int64) bool { return x != 4294967294 } ++func lt_4294967295_int64(x int64) bool { return x < 4294967295 } ++func le_4294967295_int64(x int64) bool { return x <= 4294967295 } ++func gt_4294967295_int64(x int64) bool { return x > 4294967295 } ++func ge_4294967295_int64(x int64) bool { return x >= 4294967295 } ++func eq_4294967295_int64(x int64) bool { return x == 4294967295 } ++func ne_4294967295_int64(x int64) bool { return x != 4294967295 } ++func lt_4294967296_int64(x int64) bool { return x < 4294967296 } ++func le_4294967296_int64(x int64) bool { return x <= 4294967296 } ++func gt_4294967296_int64(x int64) bool { return x > 4294967296 } ++func ge_4294967296_int64(x int64) bool { return x >= 4294967296 } ++func eq_4294967296_int64(x int64) bool { return x == 4294967296 } ++func ne_4294967296_int64(x int64) bool { return x != 4294967296 } ++func lt_1095216660480_int64(x int64) bool { return x < 1095216660480 } ++func le_1095216660480_int64(x int64) bool { return x <= 1095216660480 } ++func gt_1095216660480_int64(x int64) bool { return x > 1095216660480 } ++func ge_1095216660480_int64(x int64) bool { return x >= 1095216660480 } ++func eq_1095216660480_int64(x int64) bool { return x == 1095216660480 } ++func ne_1095216660480_int64(x int64) bool { return x != 1095216660480 } ++func lt_9223372036854775806_int64(x int64) bool { return x < 9223372036854775806 } ++func le_9223372036854775806_int64(x int64) bool { return x <= 9223372036854775806 } ++func gt_9223372036854775806_int64(x int64) bool { return x > 9223372036854775806 } ++func ge_9223372036854775806_int64(x int64) bool { return x >= 9223372036854775806 } ++func eq_9223372036854775806_int64(x int64) bool { return x == 9223372036854775806 } ++func ne_9223372036854775806_int64(x int64) bool { return x != 9223372036854775806 } ++func lt_9223372036854775807_int64(x int64) bool { return x < 9223372036854775807 } ++func le_9223372036854775807_int64(x int64) bool { return x <= 9223372036854775807 } ++func gt_9223372036854775807_int64(x int64) bool { return x > 9223372036854775807 } ++func ge_9223372036854775807_int64(x int64) bool { return x >= 9223372036854775807 } ++func eq_9223372036854775807_int64(x int64) bool { return x == 9223372036854775807 } ++func ne_9223372036854775807_int64(x int64) bool { return x != 9223372036854775807 } ++ ++var int64_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(int64) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_neg9223372036854775808_int64}, ++ {idx: 0, exp: le, fn: le_neg9223372036854775808_int64}, ++ {idx: 0, exp: gt, fn: gt_neg9223372036854775808_int64}, ++ {idx: 0, exp: ge, fn: ge_neg9223372036854775808_int64}, ++ {idx: 0, exp: eq, fn: eq_neg9223372036854775808_int64}, ++ {idx: 0, exp: ne, fn: ne_neg9223372036854775808_int64}, ++ {idx: 1, exp: lt, fn: lt_neg9223372036854775807_int64}, ++ {idx: 1, exp: le, fn: le_neg9223372036854775807_int64}, ++ {idx: 1, exp: gt, fn: gt_neg9223372036854775807_int64}, ++ {idx: 1, exp: ge, fn: ge_neg9223372036854775807_int64}, ++ {idx: 1, exp: eq, fn: eq_neg9223372036854775807_int64}, ++ {idx: 1, exp: ne, fn: ne_neg9223372036854775807_int64}, ++ {idx: 2, exp: lt, fn: lt_neg2147483649_int64}, ++ {idx: 2, exp: le, fn: le_neg2147483649_int64}, ++ {idx: 2, exp: gt, fn: gt_neg2147483649_int64}, ++ {idx: 2, exp: ge, fn: ge_neg2147483649_int64}, ++ {idx: 2, exp: eq, fn: eq_neg2147483649_int64}, ++ {idx: 2, exp: ne, fn: ne_neg2147483649_int64}, ++ {idx: 3, exp: lt, fn: lt_neg2147483648_int64}, ++ {idx: 3, exp: le, fn: le_neg2147483648_int64}, ++ {idx: 3, exp: gt, fn: gt_neg2147483648_int64}, ++ {idx: 3, exp: ge, fn: ge_neg2147483648_int64}, ++ {idx: 3, exp: eq, fn: eq_neg2147483648_int64}, ++ {idx: 3, exp: ne, fn: ne_neg2147483648_int64}, ++ {idx: 4, exp: lt, fn: lt_neg2147483647_int64}, ++ {idx: 4, exp: le, fn: le_neg2147483647_int64}, ++ {idx: 4, exp: gt, fn: gt_neg2147483647_int64}, ++ {idx: 4, exp: ge, fn: ge_neg2147483647_int64}, ++ {idx: 4, exp: eq, fn: eq_neg2147483647_int64}, ++ {idx: 4, exp: ne, fn: ne_neg2147483647_int64}, ++ {idx: 5, exp: lt, fn: lt_neg32769_int64}, ++ {idx: 5, exp: le, fn: le_neg32769_int64}, ++ {idx: 5, exp: gt, fn: gt_neg32769_int64}, ++ {idx: 5, exp: ge, fn: ge_neg32769_int64}, ++ {idx: 5, exp: eq, fn: eq_neg32769_int64}, ++ {idx: 5, exp: ne, fn: ne_neg32769_int64}, ++ {idx: 6, exp: lt, fn: lt_neg32768_int64}, ++ {idx: 6, exp: le, fn: le_neg32768_int64}, ++ {idx: 6, exp: gt, fn: gt_neg32768_int64}, ++ {idx: 6, exp: ge, fn: ge_neg32768_int64}, ++ {idx: 6, exp: eq, fn: eq_neg32768_int64}, ++ {idx: 6, exp: ne, fn: ne_neg32768_int64}, ++ {idx: 7, exp: lt, fn: lt_neg32767_int64}, ++ {idx: 7, exp: le, fn: le_neg32767_int64}, ++ {idx: 7, exp: gt, fn: gt_neg32767_int64}, ++ {idx: 7, exp: ge, fn: ge_neg32767_int64}, ++ {idx: 7, exp: eq, fn: eq_neg32767_int64}, ++ {idx: 7, exp: ne, fn: ne_neg32767_int64}, ++ {idx: 8, exp: lt, fn: lt_neg129_int64}, ++ {idx: 8, exp: le, fn: le_neg129_int64}, ++ {idx: 8, exp: gt, fn: gt_neg129_int64}, ++ {idx: 8, exp: ge, fn: ge_neg129_int64}, ++ {idx: 8, exp: eq, fn: eq_neg129_int64}, ++ {idx: 8, exp: ne, fn: ne_neg129_int64}, ++ {idx: 9, exp: lt, fn: lt_neg128_int64}, ++ {idx: 9, exp: le, fn: le_neg128_int64}, ++ {idx: 9, exp: gt, fn: gt_neg128_int64}, ++ {idx: 9, exp: ge, fn: ge_neg128_int64}, ++ {idx: 9, exp: eq, fn: eq_neg128_int64}, ++ {idx: 9, exp: ne, fn: ne_neg128_int64}, ++ {idx: 10, exp: lt, fn: lt_neg127_int64}, ++ {idx: 10, exp: le, fn: le_neg127_int64}, ++ {idx: 10, exp: gt, fn: gt_neg127_int64}, ++ {idx: 10, exp: ge, fn: ge_neg127_int64}, ++ {idx: 10, exp: eq, fn: eq_neg127_int64}, ++ {idx: 10, exp: ne, fn: ne_neg127_int64}, ++ {idx: 11, exp: lt, fn: lt_neg1_int64}, ++ {idx: 11, exp: le, fn: le_neg1_int64}, ++ {idx: 11, exp: gt, fn: gt_neg1_int64}, ++ {idx: 11, exp: ge, fn: ge_neg1_int64}, ++ {idx: 11, exp: eq, fn: eq_neg1_int64}, ++ {idx: 11, exp: ne, fn: ne_neg1_int64}, ++ {idx: 12, exp: lt, fn: lt_0_int64}, ++ {idx: 12, exp: le, fn: le_0_int64}, ++ {idx: 12, exp: gt, fn: gt_0_int64}, ++ {idx: 12, exp: ge, fn: ge_0_int64}, ++ {idx: 12, exp: eq, fn: eq_0_int64}, ++ {idx: 12, exp: ne, fn: ne_0_int64}, ++ {idx: 13, exp: lt, fn: lt_1_int64}, ++ {idx: 13, exp: le, fn: le_1_int64}, ++ {idx: 13, exp: gt, fn: gt_1_int64}, ++ {idx: 13, exp: ge, fn: ge_1_int64}, ++ {idx: 13, exp: eq, fn: eq_1_int64}, ++ {idx: 13, exp: ne, fn: ne_1_int64}, ++ {idx: 14, exp: lt, fn: lt_126_int64}, ++ {idx: 14, exp: le, fn: le_126_int64}, ++ {idx: 14, exp: gt, fn: gt_126_int64}, ++ {idx: 14, exp: ge, fn: ge_126_int64}, ++ {idx: 14, exp: eq, fn: eq_126_int64}, ++ {idx: 14, exp: ne, fn: ne_126_int64}, ++ {idx: 15, exp: lt, fn: lt_127_int64}, ++ {idx: 15, exp: le, fn: le_127_int64}, ++ {idx: 15, exp: gt, fn: gt_127_int64}, ++ {idx: 15, exp: ge, fn: ge_127_int64}, ++ {idx: 15, exp: eq, fn: eq_127_int64}, ++ {idx: 15, exp: ne, fn: ne_127_int64}, ++ {idx: 16, exp: lt, fn: lt_128_int64}, ++ {idx: 16, exp: le, fn: le_128_int64}, ++ {idx: 16, exp: gt, fn: gt_128_int64}, ++ {idx: 16, exp: ge, fn: ge_128_int64}, ++ {idx: 16, exp: eq, fn: eq_128_int64}, ++ {idx: 16, exp: ne, fn: ne_128_int64}, ++ {idx: 17, exp: lt, fn: lt_254_int64}, ++ {idx: 17, exp: le, fn: le_254_int64}, ++ {idx: 17, exp: gt, fn: gt_254_int64}, ++ {idx: 17, exp: ge, fn: ge_254_int64}, ++ {idx: 17, exp: eq, fn: eq_254_int64}, ++ {idx: 17, exp: ne, fn: ne_254_int64}, ++ {idx: 18, exp: lt, fn: lt_255_int64}, ++ {idx: 18, exp: le, fn: le_255_int64}, ++ {idx: 18, exp: gt, fn: gt_255_int64}, ++ {idx: 18, exp: ge, fn: ge_255_int64}, ++ {idx: 18, exp: eq, fn: eq_255_int64}, ++ {idx: 18, exp: ne, fn: ne_255_int64}, ++ {idx: 19, exp: lt, fn: lt_256_int64}, ++ {idx: 19, exp: le, fn: le_256_int64}, ++ {idx: 19, exp: gt, fn: gt_256_int64}, ++ {idx: 19, exp: ge, fn: ge_256_int64}, ++ {idx: 19, exp: eq, fn: eq_256_int64}, ++ {idx: 19, exp: ne, fn: ne_256_int64}, ++ {idx: 20, exp: lt, fn: lt_32766_int64}, ++ {idx: 20, exp: le, fn: le_32766_int64}, ++ {idx: 20, exp: gt, fn: gt_32766_int64}, ++ {idx: 20, exp: ge, fn: ge_32766_int64}, ++ {idx: 20, exp: eq, fn: eq_32766_int64}, ++ {idx: 20, exp: ne, fn: ne_32766_int64}, ++ {idx: 21, exp: lt, fn: lt_32767_int64}, ++ {idx: 21, exp: le, fn: le_32767_int64}, ++ {idx: 21, exp: gt, fn: gt_32767_int64}, ++ {idx: 21, exp: ge, fn: ge_32767_int64}, ++ {idx: 21, exp: eq, fn: eq_32767_int64}, ++ {idx: 21, exp: ne, fn: ne_32767_int64}, ++ {idx: 22, exp: lt, fn: lt_32768_int64}, ++ {idx: 22, exp: le, fn: le_32768_int64}, ++ {idx: 22, exp: gt, fn: gt_32768_int64}, ++ {idx: 22, exp: ge, fn: ge_32768_int64}, ++ {idx: 22, exp: eq, fn: eq_32768_int64}, ++ {idx: 22, exp: ne, fn: ne_32768_int64}, ++ {idx: 23, exp: lt, fn: lt_65534_int64}, ++ {idx: 23, exp: le, fn: le_65534_int64}, ++ {idx: 23, exp: gt, fn: gt_65534_int64}, ++ {idx: 23, exp: ge, fn: ge_65534_int64}, ++ {idx: 23, exp: eq, fn: eq_65534_int64}, ++ {idx: 23, exp: ne, fn: ne_65534_int64}, ++ {idx: 24, exp: lt, fn: lt_65535_int64}, ++ {idx: 24, exp: le, fn: le_65535_int64}, ++ {idx: 24, exp: gt, fn: gt_65535_int64}, ++ {idx: 24, exp: ge, fn: ge_65535_int64}, ++ {idx: 24, exp: eq, fn: eq_65535_int64}, ++ {idx: 24, exp: ne, fn: ne_65535_int64}, ++ {idx: 25, exp: lt, fn: lt_65536_int64}, ++ {idx: 25, exp: le, fn: le_65536_int64}, ++ {idx: 25, exp: gt, fn: gt_65536_int64}, ++ {idx: 25, exp: ge, fn: ge_65536_int64}, ++ {idx: 25, exp: eq, fn: eq_65536_int64}, ++ {idx: 25, exp: ne, fn: ne_65536_int64}, ++ {idx: 26, exp: lt, fn: lt_2147483646_int64}, ++ {idx: 26, exp: le, fn: le_2147483646_int64}, ++ {idx: 26, exp: gt, fn: gt_2147483646_int64}, ++ {idx: 26, exp: ge, fn: ge_2147483646_int64}, ++ {idx: 26, exp: eq, fn: eq_2147483646_int64}, ++ {idx: 26, exp: ne, fn: ne_2147483646_int64}, ++ {idx: 27, exp: lt, fn: lt_2147483647_int64}, ++ {idx: 27, exp: le, fn: le_2147483647_int64}, ++ {idx: 27, exp: gt, fn: gt_2147483647_int64}, ++ {idx: 27, exp: ge, fn: ge_2147483647_int64}, ++ {idx: 27, exp: eq, fn: eq_2147483647_int64}, ++ {idx: 27, exp: ne, fn: ne_2147483647_int64}, ++ {idx: 28, exp: lt, fn: lt_2147483648_int64}, ++ {idx: 28, exp: le, fn: le_2147483648_int64}, ++ {idx: 28, exp: gt, fn: gt_2147483648_int64}, ++ {idx: 28, exp: ge, fn: ge_2147483648_int64}, ++ {idx: 28, exp: eq, fn: eq_2147483648_int64}, ++ {idx: 28, exp: ne, fn: ne_2147483648_int64}, ++ {idx: 29, exp: lt, fn: lt_4278190080_int64}, ++ {idx: 29, exp: le, fn: le_4278190080_int64}, ++ {idx: 29, exp: gt, fn: gt_4278190080_int64}, ++ {idx: 29, exp: ge, fn: ge_4278190080_int64}, ++ {idx: 29, exp: eq, fn: eq_4278190080_int64}, ++ {idx: 29, exp: ne, fn: ne_4278190080_int64}, ++ {idx: 30, exp: lt, fn: lt_4294967294_int64}, ++ {idx: 30, exp: le, fn: le_4294967294_int64}, ++ {idx: 30, exp: gt, fn: gt_4294967294_int64}, ++ {idx: 30, exp: ge, fn: ge_4294967294_int64}, ++ {idx: 30, exp: eq, fn: eq_4294967294_int64}, ++ {idx: 30, exp: ne, fn: ne_4294967294_int64}, ++ {idx: 31, exp: lt, fn: lt_4294967295_int64}, ++ {idx: 31, exp: le, fn: le_4294967295_int64}, ++ {idx: 31, exp: gt, fn: gt_4294967295_int64}, ++ {idx: 31, exp: ge, fn: ge_4294967295_int64}, ++ {idx: 31, exp: eq, fn: eq_4294967295_int64}, ++ {idx: 31, exp: ne, fn: ne_4294967295_int64}, ++ {idx: 32, exp: lt, fn: lt_4294967296_int64}, ++ {idx: 32, exp: le, fn: le_4294967296_int64}, ++ {idx: 32, exp: gt, fn: gt_4294967296_int64}, ++ {idx: 32, exp: ge, fn: ge_4294967296_int64}, ++ {idx: 32, exp: eq, fn: eq_4294967296_int64}, ++ {idx: 32, exp: ne, fn: ne_4294967296_int64}, ++ {idx: 33, exp: lt, fn: lt_1095216660480_int64}, ++ {idx: 33, exp: le, fn: le_1095216660480_int64}, ++ {idx: 33, exp: gt, fn: gt_1095216660480_int64}, ++ {idx: 33, exp: ge, fn: ge_1095216660480_int64}, ++ {idx: 33, exp: eq, fn: eq_1095216660480_int64}, ++ {idx: 33, exp: ne, fn: ne_1095216660480_int64}, ++ {idx: 34, exp: lt, fn: lt_9223372036854775806_int64}, ++ {idx: 34, exp: le, fn: le_9223372036854775806_int64}, ++ {idx: 34, exp: gt, fn: gt_9223372036854775806_int64}, ++ {idx: 34, exp: ge, fn: ge_9223372036854775806_int64}, ++ {idx: 34, exp: eq, fn: eq_9223372036854775806_int64}, ++ {idx: 34, exp: ne, fn: ne_9223372036854775806_int64}, ++ {idx: 35, exp: lt, fn: lt_9223372036854775807_int64}, ++ {idx: 35, exp: le, fn: le_9223372036854775807_int64}, ++ {idx: 35, exp: gt, fn: gt_9223372036854775807_int64}, ++ {idx: 35, exp: ge, fn: ge_9223372036854775807_int64}, ++ {idx: 35, exp: eq, fn: eq_9223372036854775807_int64}, ++ {idx: 35, exp: ne, fn: ne_9223372036854775807_int64}, ++} ++ ++// int32 tests ++var int32_vals = []int32{ ++ -2147483648, ++ -2147483647, ++ -32769, ++ -32768, ++ -32767, ++ -129, ++ -128, ++ -127, ++ -1, ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++ 256, ++ 32766, ++ 32767, ++ 32768, ++ 65534, ++ 65535, ++ 65536, ++ 2147483646, ++ 2147483647, ++} ++ ++func lt_neg2147483648_int32(x int32) bool { return x < -2147483648 } ++func le_neg2147483648_int32(x int32) bool { return x <= -2147483648 } ++func gt_neg2147483648_int32(x int32) bool { return x > -2147483648 } ++func ge_neg2147483648_int32(x int32) bool { return x >= -2147483648 } ++func eq_neg2147483648_int32(x int32) bool { return x == -2147483648 } ++func ne_neg2147483648_int32(x int32) bool { return x != -2147483648 } ++func lt_neg2147483647_int32(x int32) bool { return x < -2147483647 } ++func le_neg2147483647_int32(x int32) bool { return x <= -2147483647 } ++func gt_neg2147483647_int32(x int32) bool { return x > -2147483647 } ++func ge_neg2147483647_int32(x int32) bool { return x >= -2147483647 } ++func eq_neg2147483647_int32(x int32) bool { return x == -2147483647 } ++func ne_neg2147483647_int32(x int32) bool { return x != -2147483647 } ++func lt_neg32769_int32(x int32) bool { return x < -32769 } ++func le_neg32769_int32(x int32) bool { return x <= -32769 } ++func gt_neg32769_int32(x int32) bool { return x > -32769 } ++func ge_neg32769_int32(x int32) bool { return x >= -32769 } ++func eq_neg32769_int32(x int32) bool { return x == -32769 } ++func ne_neg32769_int32(x int32) bool { return x != -32769 } ++func lt_neg32768_int32(x int32) bool { return x < -32768 } ++func le_neg32768_int32(x int32) bool { return x <= -32768 } ++func gt_neg32768_int32(x int32) bool { return x > -32768 } ++func ge_neg32768_int32(x int32) bool { return x >= -32768 } ++func eq_neg32768_int32(x int32) bool { return x == -32768 } ++func ne_neg32768_int32(x int32) bool { return x != -32768 } ++func lt_neg32767_int32(x int32) bool { return x < -32767 } ++func le_neg32767_int32(x int32) bool { return x <= -32767 } ++func gt_neg32767_int32(x int32) bool { return x > -32767 } ++func ge_neg32767_int32(x int32) bool { return x >= -32767 } ++func eq_neg32767_int32(x int32) bool { return x == -32767 } ++func ne_neg32767_int32(x int32) bool { return x != -32767 } ++func lt_neg129_int32(x int32) bool { return x < -129 } ++func le_neg129_int32(x int32) bool { return x <= -129 } ++func gt_neg129_int32(x int32) bool { return x > -129 } ++func ge_neg129_int32(x int32) bool { return x >= -129 } ++func eq_neg129_int32(x int32) bool { return x == -129 } ++func ne_neg129_int32(x int32) bool { return x != -129 } ++func lt_neg128_int32(x int32) bool { return x < -128 } ++func le_neg128_int32(x int32) bool { return x <= -128 } ++func gt_neg128_int32(x int32) bool { return x > -128 } ++func ge_neg128_int32(x int32) bool { return x >= -128 } ++func eq_neg128_int32(x int32) bool { return x == -128 } ++func ne_neg128_int32(x int32) bool { return x != -128 } ++func lt_neg127_int32(x int32) bool { return x < -127 } ++func le_neg127_int32(x int32) bool { return x <= -127 } ++func gt_neg127_int32(x int32) bool { return x > -127 } ++func ge_neg127_int32(x int32) bool { return x >= -127 } ++func eq_neg127_int32(x int32) bool { return x == -127 } ++func ne_neg127_int32(x int32) bool { return x != -127 } ++func lt_neg1_int32(x int32) bool { return x < -1 } ++func le_neg1_int32(x int32) bool { return x <= -1 } ++func gt_neg1_int32(x int32) bool { return x > -1 } ++func ge_neg1_int32(x int32) bool { return x >= -1 } ++func eq_neg1_int32(x int32) bool { return x == -1 } ++func ne_neg1_int32(x int32) bool { return x != -1 } ++func lt_0_int32(x int32) bool { return x < 0 } ++func le_0_int32(x int32) bool { return x <= 0 } ++func gt_0_int32(x int32) bool { return x > 0 } ++func ge_0_int32(x int32) bool { return x >= 0 } ++func eq_0_int32(x int32) bool { return x == 0 } ++func ne_0_int32(x int32) bool { return x != 0 } ++func lt_1_int32(x int32) bool { return x < 1 } ++func le_1_int32(x int32) bool { return x <= 1 } ++func gt_1_int32(x int32) bool { return x > 1 } ++func ge_1_int32(x int32) bool { return x >= 1 } ++func eq_1_int32(x int32) bool { return x == 1 } ++func ne_1_int32(x int32) bool { return x != 1 } ++func lt_126_int32(x int32) bool { return x < 126 } ++func le_126_int32(x int32) bool { return x <= 126 } ++func gt_126_int32(x int32) bool { return x > 126 } ++func ge_126_int32(x int32) bool { return x >= 126 } ++func eq_126_int32(x int32) bool { return x == 126 } ++func ne_126_int32(x int32) bool { return x != 126 } ++func lt_127_int32(x int32) bool { return x < 127 } ++func le_127_int32(x int32) bool { return x <= 127 } ++func gt_127_int32(x int32) bool { return x > 127 } ++func ge_127_int32(x int32) bool { return x >= 127 } ++func eq_127_int32(x int32) bool { return x == 127 } ++func ne_127_int32(x int32) bool { return x != 127 } ++func lt_128_int32(x int32) bool { return x < 128 } ++func le_128_int32(x int32) bool { return x <= 128 } ++func gt_128_int32(x int32) bool { return x > 128 } ++func ge_128_int32(x int32) bool { return x >= 128 } ++func eq_128_int32(x int32) bool { return x == 128 } ++func ne_128_int32(x int32) bool { return x != 128 } ++func lt_254_int32(x int32) bool { return x < 254 } ++func le_254_int32(x int32) bool { return x <= 254 } ++func gt_254_int32(x int32) bool { return x > 254 } ++func ge_254_int32(x int32) bool { return x >= 254 } ++func eq_254_int32(x int32) bool { return x == 254 } ++func ne_254_int32(x int32) bool { return x != 254 } ++func lt_255_int32(x int32) bool { return x < 255 } ++func le_255_int32(x int32) bool { return x <= 255 } ++func gt_255_int32(x int32) bool { return x > 255 } ++func ge_255_int32(x int32) bool { return x >= 255 } ++func eq_255_int32(x int32) bool { return x == 255 } ++func ne_255_int32(x int32) bool { return x != 255 } ++func lt_256_int32(x int32) bool { return x < 256 } ++func le_256_int32(x int32) bool { return x <= 256 } ++func gt_256_int32(x int32) bool { return x > 256 } ++func ge_256_int32(x int32) bool { return x >= 256 } ++func eq_256_int32(x int32) bool { return x == 256 } ++func ne_256_int32(x int32) bool { return x != 256 } ++func lt_32766_int32(x int32) bool { return x < 32766 } ++func le_32766_int32(x int32) bool { return x <= 32766 } ++func gt_32766_int32(x int32) bool { return x > 32766 } ++func ge_32766_int32(x int32) bool { return x >= 32766 } ++func eq_32766_int32(x int32) bool { return x == 32766 } ++func ne_32766_int32(x int32) bool { return x != 32766 } ++func lt_32767_int32(x int32) bool { return x < 32767 } ++func le_32767_int32(x int32) bool { return x <= 32767 } ++func gt_32767_int32(x int32) bool { return x > 32767 } ++func ge_32767_int32(x int32) bool { return x >= 32767 } ++func eq_32767_int32(x int32) bool { return x == 32767 } ++func ne_32767_int32(x int32) bool { return x != 32767 } ++func lt_32768_int32(x int32) bool { return x < 32768 } ++func le_32768_int32(x int32) bool { return x <= 32768 } ++func gt_32768_int32(x int32) bool { return x > 32768 } ++func ge_32768_int32(x int32) bool { return x >= 32768 } ++func eq_32768_int32(x int32) bool { return x == 32768 } ++func ne_32768_int32(x int32) bool { return x != 32768 } ++func lt_65534_int32(x int32) bool { return x < 65534 } ++func le_65534_int32(x int32) bool { return x <= 65534 } ++func gt_65534_int32(x int32) bool { return x > 65534 } ++func ge_65534_int32(x int32) bool { return x >= 65534 } ++func eq_65534_int32(x int32) bool { return x == 65534 } ++func ne_65534_int32(x int32) bool { return x != 65534 } ++func lt_65535_int32(x int32) bool { return x < 65535 } ++func le_65535_int32(x int32) bool { return x <= 65535 } ++func gt_65535_int32(x int32) bool { return x > 65535 } ++func ge_65535_int32(x int32) bool { return x >= 65535 } ++func eq_65535_int32(x int32) bool { return x == 65535 } ++func ne_65535_int32(x int32) bool { return x != 65535 } ++func lt_65536_int32(x int32) bool { return x < 65536 } ++func le_65536_int32(x int32) bool { return x <= 65536 } ++func gt_65536_int32(x int32) bool { return x > 65536 } ++func ge_65536_int32(x int32) bool { return x >= 65536 } ++func eq_65536_int32(x int32) bool { return x == 65536 } ++func ne_65536_int32(x int32) bool { return x != 65536 } ++func lt_2147483646_int32(x int32) bool { return x < 2147483646 } ++func le_2147483646_int32(x int32) bool { return x <= 2147483646 } ++func gt_2147483646_int32(x int32) bool { return x > 2147483646 } ++func ge_2147483646_int32(x int32) bool { return x >= 2147483646 } ++func eq_2147483646_int32(x int32) bool { return x == 2147483646 } ++func ne_2147483646_int32(x int32) bool { return x != 2147483646 } ++func lt_2147483647_int32(x int32) bool { return x < 2147483647 } ++func le_2147483647_int32(x int32) bool { return x <= 2147483647 } ++func gt_2147483647_int32(x int32) bool { return x > 2147483647 } ++func ge_2147483647_int32(x int32) bool { return x >= 2147483647 } ++func eq_2147483647_int32(x int32) bool { return x == 2147483647 } ++func ne_2147483647_int32(x int32) bool { return x != 2147483647 } ++ ++var int32_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(int32) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_neg2147483648_int32}, ++ {idx: 0, exp: le, fn: le_neg2147483648_int32}, ++ {idx: 0, exp: gt, fn: gt_neg2147483648_int32}, ++ {idx: 0, exp: ge, fn: ge_neg2147483648_int32}, ++ {idx: 0, exp: eq, fn: eq_neg2147483648_int32}, ++ {idx: 0, exp: ne, fn: ne_neg2147483648_int32}, ++ {idx: 1, exp: lt, fn: lt_neg2147483647_int32}, ++ {idx: 1, exp: le, fn: le_neg2147483647_int32}, ++ {idx: 1, exp: gt, fn: gt_neg2147483647_int32}, ++ {idx: 1, exp: ge, fn: ge_neg2147483647_int32}, ++ {idx: 1, exp: eq, fn: eq_neg2147483647_int32}, ++ {idx: 1, exp: ne, fn: ne_neg2147483647_int32}, ++ {idx: 2, exp: lt, fn: lt_neg32769_int32}, ++ {idx: 2, exp: le, fn: le_neg32769_int32}, ++ {idx: 2, exp: gt, fn: gt_neg32769_int32}, ++ {idx: 2, exp: ge, fn: ge_neg32769_int32}, ++ {idx: 2, exp: eq, fn: eq_neg32769_int32}, ++ {idx: 2, exp: ne, fn: ne_neg32769_int32}, ++ {idx: 3, exp: lt, fn: lt_neg32768_int32}, ++ {idx: 3, exp: le, fn: le_neg32768_int32}, ++ {idx: 3, exp: gt, fn: gt_neg32768_int32}, ++ {idx: 3, exp: ge, fn: ge_neg32768_int32}, ++ {idx: 3, exp: eq, fn: eq_neg32768_int32}, ++ {idx: 3, exp: ne, fn: ne_neg32768_int32}, ++ {idx: 4, exp: lt, fn: lt_neg32767_int32}, ++ {idx: 4, exp: le, fn: le_neg32767_int32}, ++ {idx: 4, exp: gt, fn: gt_neg32767_int32}, ++ {idx: 4, exp: ge, fn: ge_neg32767_int32}, ++ {idx: 4, exp: eq, fn: eq_neg32767_int32}, ++ {idx: 4, exp: ne, fn: ne_neg32767_int32}, ++ {idx: 5, exp: lt, fn: lt_neg129_int32}, ++ {idx: 5, exp: le, fn: le_neg129_int32}, ++ {idx: 5, exp: gt, fn: gt_neg129_int32}, ++ {idx: 5, exp: ge, fn: ge_neg129_int32}, ++ {idx: 5, exp: eq, fn: eq_neg129_int32}, ++ {idx: 5, exp: ne, fn: ne_neg129_int32}, ++ {idx: 6, exp: lt, fn: lt_neg128_int32}, ++ {idx: 6, exp: le, fn: le_neg128_int32}, ++ {idx: 6, exp: gt, fn: gt_neg128_int32}, ++ {idx: 6, exp: ge, fn: ge_neg128_int32}, ++ {idx: 6, exp: eq, fn: eq_neg128_int32}, ++ {idx: 6, exp: ne, fn: ne_neg128_int32}, ++ {idx: 7, exp: lt, fn: lt_neg127_int32}, ++ {idx: 7, exp: le, fn: le_neg127_int32}, ++ {idx: 7, exp: gt, fn: gt_neg127_int32}, ++ {idx: 7, exp: ge, fn: ge_neg127_int32}, ++ {idx: 7, exp: eq, fn: eq_neg127_int32}, ++ {idx: 7, exp: ne, fn: ne_neg127_int32}, ++ {idx: 8, exp: lt, fn: lt_neg1_int32}, ++ {idx: 8, exp: le, fn: le_neg1_int32}, ++ {idx: 8, exp: gt, fn: gt_neg1_int32}, ++ {idx: 8, exp: ge, fn: ge_neg1_int32}, ++ {idx: 8, exp: eq, fn: eq_neg1_int32}, ++ {idx: 8, exp: ne, fn: ne_neg1_int32}, ++ {idx: 9, exp: lt, fn: lt_0_int32}, ++ {idx: 9, exp: le, fn: le_0_int32}, ++ {idx: 9, exp: gt, fn: gt_0_int32}, ++ {idx: 9, exp: ge, fn: ge_0_int32}, ++ {idx: 9, exp: eq, fn: eq_0_int32}, ++ {idx: 9, exp: ne, fn: ne_0_int32}, ++ {idx: 10, exp: lt, fn: lt_1_int32}, ++ {idx: 10, exp: le, fn: le_1_int32}, ++ {idx: 10, exp: gt, fn: gt_1_int32}, ++ {idx: 10, exp: ge, fn: ge_1_int32}, ++ {idx: 10, exp: eq, fn: eq_1_int32}, ++ {idx: 10, exp: ne, fn: ne_1_int32}, ++ {idx: 11, exp: lt, fn: lt_126_int32}, ++ {idx: 11, exp: le, fn: le_126_int32}, ++ {idx: 11, exp: gt, fn: gt_126_int32}, ++ {idx: 11, exp: ge, fn: ge_126_int32}, ++ {idx: 11, exp: eq, fn: eq_126_int32}, ++ {idx: 11, exp: ne, fn: ne_126_int32}, ++ {idx: 12, exp: lt, fn: lt_127_int32}, ++ {idx: 12, exp: le, fn: le_127_int32}, ++ {idx: 12, exp: gt, fn: gt_127_int32}, ++ {idx: 12, exp: ge, fn: ge_127_int32}, ++ {idx: 12, exp: eq, fn: eq_127_int32}, ++ {idx: 12, exp: ne, fn: ne_127_int32}, ++ {idx: 13, exp: lt, fn: lt_128_int32}, ++ {idx: 13, exp: le, fn: le_128_int32}, ++ {idx: 13, exp: gt, fn: gt_128_int32}, ++ {idx: 13, exp: ge, fn: ge_128_int32}, ++ {idx: 13, exp: eq, fn: eq_128_int32}, ++ {idx: 13, exp: ne, fn: ne_128_int32}, ++ {idx: 14, exp: lt, fn: lt_254_int32}, ++ {idx: 14, exp: le, fn: le_254_int32}, ++ {idx: 14, exp: gt, fn: gt_254_int32}, ++ {idx: 14, exp: ge, fn: ge_254_int32}, ++ {idx: 14, exp: eq, fn: eq_254_int32}, ++ {idx: 14, exp: ne, fn: ne_254_int32}, ++ {idx: 15, exp: lt, fn: lt_255_int32}, ++ {idx: 15, exp: le, fn: le_255_int32}, ++ {idx: 15, exp: gt, fn: gt_255_int32}, ++ {idx: 15, exp: ge, fn: ge_255_int32}, ++ {idx: 15, exp: eq, fn: eq_255_int32}, ++ {idx: 15, exp: ne, fn: ne_255_int32}, ++ {idx: 16, exp: lt, fn: lt_256_int32}, ++ {idx: 16, exp: le, fn: le_256_int32}, ++ {idx: 16, exp: gt, fn: gt_256_int32}, ++ {idx: 16, exp: ge, fn: ge_256_int32}, ++ {idx: 16, exp: eq, fn: eq_256_int32}, ++ {idx: 16, exp: ne, fn: ne_256_int32}, ++ {idx: 17, exp: lt, fn: lt_32766_int32}, ++ {idx: 17, exp: le, fn: le_32766_int32}, ++ {idx: 17, exp: gt, fn: gt_32766_int32}, ++ {idx: 17, exp: ge, fn: ge_32766_int32}, ++ {idx: 17, exp: eq, fn: eq_32766_int32}, ++ {idx: 17, exp: ne, fn: ne_32766_int32}, ++ {idx: 18, exp: lt, fn: lt_32767_int32}, ++ {idx: 18, exp: le, fn: le_32767_int32}, ++ {idx: 18, exp: gt, fn: gt_32767_int32}, ++ {idx: 18, exp: ge, fn: ge_32767_int32}, ++ {idx: 18, exp: eq, fn: eq_32767_int32}, ++ {idx: 18, exp: ne, fn: ne_32767_int32}, ++ {idx: 19, exp: lt, fn: lt_32768_int32}, ++ {idx: 19, exp: le, fn: le_32768_int32}, ++ {idx: 19, exp: gt, fn: gt_32768_int32}, ++ {idx: 19, exp: ge, fn: ge_32768_int32}, ++ {idx: 19, exp: eq, fn: eq_32768_int32}, ++ {idx: 19, exp: ne, fn: ne_32768_int32}, ++ {idx: 20, exp: lt, fn: lt_65534_int32}, ++ {idx: 20, exp: le, fn: le_65534_int32}, ++ {idx: 20, exp: gt, fn: gt_65534_int32}, ++ {idx: 20, exp: ge, fn: ge_65534_int32}, ++ {idx: 20, exp: eq, fn: eq_65534_int32}, ++ {idx: 20, exp: ne, fn: ne_65534_int32}, ++ {idx: 21, exp: lt, fn: lt_65535_int32}, ++ {idx: 21, exp: le, fn: le_65535_int32}, ++ {idx: 21, exp: gt, fn: gt_65535_int32}, ++ {idx: 21, exp: ge, fn: ge_65535_int32}, ++ {idx: 21, exp: eq, fn: eq_65535_int32}, ++ {idx: 21, exp: ne, fn: ne_65535_int32}, ++ {idx: 22, exp: lt, fn: lt_65536_int32}, ++ {idx: 22, exp: le, fn: le_65536_int32}, ++ {idx: 22, exp: gt, fn: gt_65536_int32}, ++ {idx: 22, exp: ge, fn: ge_65536_int32}, ++ {idx: 22, exp: eq, fn: eq_65536_int32}, ++ {idx: 22, exp: ne, fn: ne_65536_int32}, ++ {idx: 23, exp: lt, fn: lt_2147483646_int32}, ++ {idx: 23, exp: le, fn: le_2147483646_int32}, ++ {idx: 23, exp: gt, fn: gt_2147483646_int32}, ++ {idx: 23, exp: ge, fn: ge_2147483646_int32}, ++ {idx: 23, exp: eq, fn: eq_2147483646_int32}, ++ {idx: 23, exp: ne, fn: ne_2147483646_int32}, ++ {idx: 24, exp: lt, fn: lt_2147483647_int32}, ++ {idx: 24, exp: le, fn: le_2147483647_int32}, ++ {idx: 24, exp: gt, fn: gt_2147483647_int32}, ++ {idx: 24, exp: ge, fn: ge_2147483647_int32}, ++ {idx: 24, exp: eq, fn: eq_2147483647_int32}, ++ {idx: 24, exp: ne, fn: ne_2147483647_int32}, ++} ++ ++// int16 tests ++var int16_vals = []int16{ ++ -32768, ++ -32767, ++ -129, ++ -128, ++ -127, ++ -1, ++ 0, ++ 1, ++ 126, ++ 127, ++ 128, ++ 254, ++ 255, ++ 256, ++ 32766, ++ 32767, ++} ++ ++func lt_neg32768_int16(x int16) bool { return x < -32768 } ++func le_neg32768_int16(x int16) bool { return x <= -32768 } ++func gt_neg32768_int16(x int16) bool { return x > -32768 } ++func ge_neg32768_int16(x int16) bool { return x >= -32768 } ++func eq_neg32768_int16(x int16) bool { return x == -32768 } ++func ne_neg32768_int16(x int16) bool { return x != -32768 } ++func lt_neg32767_int16(x int16) bool { return x < -32767 } ++func le_neg32767_int16(x int16) bool { return x <= -32767 } ++func gt_neg32767_int16(x int16) bool { return x > -32767 } ++func ge_neg32767_int16(x int16) bool { return x >= -32767 } ++func eq_neg32767_int16(x int16) bool { return x == -32767 } ++func ne_neg32767_int16(x int16) bool { return x != -32767 } ++func lt_neg129_int16(x int16) bool { return x < -129 } ++func le_neg129_int16(x int16) bool { return x <= -129 } ++func gt_neg129_int16(x int16) bool { return x > -129 } ++func ge_neg129_int16(x int16) bool { return x >= -129 } ++func eq_neg129_int16(x int16) bool { return x == -129 } ++func ne_neg129_int16(x int16) bool { return x != -129 } ++func lt_neg128_int16(x int16) bool { return x < -128 } ++func le_neg128_int16(x int16) bool { return x <= -128 } ++func gt_neg128_int16(x int16) bool { return x > -128 } ++func ge_neg128_int16(x int16) bool { return x >= -128 } ++func eq_neg128_int16(x int16) bool { return x == -128 } ++func ne_neg128_int16(x int16) bool { return x != -128 } ++func lt_neg127_int16(x int16) bool { return x < -127 } ++func le_neg127_int16(x int16) bool { return x <= -127 } ++func gt_neg127_int16(x int16) bool { return x > -127 } ++func ge_neg127_int16(x int16) bool { return x >= -127 } ++func eq_neg127_int16(x int16) bool { return x == -127 } ++func ne_neg127_int16(x int16) bool { return x != -127 } ++func lt_neg1_int16(x int16) bool { return x < -1 } ++func le_neg1_int16(x int16) bool { return x <= -1 } ++func gt_neg1_int16(x int16) bool { return x > -1 } ++func ge_neg1_int16(x int16) bool { return x >= -1 } ++func eq_neg1_int16(x int16) bool { return x == -1 } ++func ne_neg1_int16(x int16) bool { return x != -1 } ++func lt_0_int16(x int16) bool { return x < 0 } ++func le_0_int16(x int16) bool { return x <= 0 } ++func gt_0_int16(x int16) bool { return x > 0 } ++func ge_0_int16(x int16) bool { return x >= 0 } ++func eq_0_int16(x int16) bool { return x == 0 } ++func ne_0_int16(x int16) bool { return x != 0 } ++func lt_1_int16(x int16) bool { return x < 1 } ++func le_1_int16(x int16) bool { return x <= 1 } ++func gt_1_int16(x int16) bool { return x > 1 } ++func ge_1_int16(x int16) bool { return x >= 1 } ++func eq_1_int16(x int16) bool { return x == 1 } ++func ne_1_int16(x int16) bool { return x != 1 } ++func lt_126_int16(x int16) bool { return x < 126 } ++func le_126_int16(x int16) bool { return x <= 126 } ++func gt_126_int16(x int16) bool { return x > 126 } ++func ge_126_int16(x int16) bool { return x >= 126 } ++func eq_126_int16(x int16) bool { return x == 126 } ++func ne_126_int16(x int16) bool { return x != 126 } ++func lt_127_int16(x int16) bool { return x < 127 } ++func le_127_int16(x int16) bool { return x <= 127 } ++func gt_127_int16(x int16) bool { return x > 127 } ++func ge_127_int16(x int16) bool { return x >= 127 } ++func eq_127_int16(x int16) bool { return x == 127 } ++func ne_127_int16(x int16) bool { return x != 127 } ++func lt_128_int16(x int16) bool { return x < 128 } ++func le_128_int16(x int16) bool { return x <= 128 } ++func gt_128_int16(x int16) bool { return x > 128 } ++func ge_128_int16(x int16) bool { return x >= 128 } ++func eq_128_int16(x int16) bool { return x == 128 } ++func ne_128_int16(x int16) bool { return x != 128 } ++func lt_254_int16(x int16) bool { return x < 254 } ++func le_254_int16(x int16) bool { return x <= 254 } ++func gt_254_int16(x int16) bool { return x > 254 } ++func ge_254_int16(x int16) bool { return x >= 254 } ++func eq_254_int16(x int16) bool { return x == 254 } ++func ne_254_int16(x int16) bool { return x != 254 } ++func lt_255_int16(x int16) bool { return x < 255 } ++func le_255_int16(x int16) bool { return x <= 255 } ++func gt_255_int16(x int16) bool { return x > 255 } ++func ge_255_int16(x int16) bool { return x >= 255 } ++func eq_255_int16(x int16) bool { return x == 255 } ++func ne_255_int16(x int16) bool { return x != 255 } ++func lt_256_int16(x int16) bool { return x < 256 } ++func le_256_int16(x int16) bool { return x <= 256 } ++func gt_256_int16(x int16) bool { return x > 256 } ++func ge_256_int16(x int16) bool { return x >= 256 } ++func eq_256_int16(x int16) bool { return x == 256 } ++func ne_256_int16(x int16) bool { return x != 256 } ++func lt_32766_int16(x int16) bool { return x < 32766 } ++func le_32766_int16(x int16) bool { return x <= 32766 } ++func gt_32766_int16(x int16) bool { return x > 32766 } ++func ge_32766_int16(x int16) bool { return x >= 32766 } ++func eq_32766_int16(x int16) bool { return x == 32766 } ++func ne_32766_int16(x int16) bool { return x != 32766 } ++func lt_32767_int16(x int16) bool { return x < 32767 } ++func le_32767_int16(x int16) bool { return x <= 32767 } ++func gt_32767_int16(x int16) bool { return x > 32767 } ++func ge_32767_int16(x int16) bool { return x >= 32767 } ++func eq_32767_int16(x int16) bool { return x == 32767 } ++func ne_32767_int16(x int16) bool { return x != 32767 } ++ ++var int16_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(int16) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_neg32768_int16}, ++ {idx: 0, exp: le, fn: le_neg32768_int16}, ++ {idx: 0, exp: gt, fn: gt_neg32768_int16}, ++ {idx: 0, exp: ge, fn: ge_neg32768_int16}, ++ {idx: 0, exp: eq, fn: eq_neg32768_int16}, ++ {idx: 0, exp: ne, fn: ne_neg32768_int16}, ++ {idx: 1, exp: lt, fn: lt_neg32767_int16}, ++ {idx: 1, exp: le, fn: le_neg32767_int16}, ++ {idx: 1, exp: gt, fn: gt_neg32767_int16}, ++ {idx: 1, exp: ge, fn: ge_neg32767_int16}, ++ {idx: 1, exp: eq, fn: eq_neg32767_int16}, ++ {idx: 1, exp: ne, fn: ne_neg32767_int16}, ++ {idx: 2, exp: lt, fn: lt_neg129_int16}, ++ {idx: 2, exp: le, fn: le_neg129_int16}, ++ {idx: 2, exp: gt, fn: gt_neg129_int16}, ++ {idx: 2, exp: ge, fn: ge_neg129_int16}, ++ {idx: 2, exp: eq, fn: eq_neg129_int16}, ++ {idx: 2, exp: ne, fn: ne_neg129_int16}, ++ {idx: 3, exp: lt, fn: lt_neg128_int16}, ++ {idx: 3, exp: le, fn: le_neg128_int16}, ++ {idx: 3, exp: gt, fn: gt_neg128_int16}, ++ {idx: 3, exp: ge, fn: ge_neg128_int16}, ++ {idx: 3, exp: eq, fn: eq_neg128_int16}, ++ {idx: 3, exp: ne, fn: ne_neg128_int16}, ++ {idx: 4, exp: lt, fn: lt_neg127_int16}, ++ {idx: 4, exp: le, fn: le_neg127_int16}, ++ {idx: 4, exp: gt, fn: gt_neg127_int16}, ++ {idx: 4, exp: ge, fn: ge_neg127_int16}, ++ {idx: 4, exp: eq, fn: eq_neg127_int16}, ++ {idx: 4, exp: ne, fn: ne_neg127_int16}, ++ {idx: 5, exp: lt, fn: lt_neg1_int16}, ++ {idx: 5, exp: le, fn: le_neg1_int16}, ++ {idx: 5, exp: gt, fn: gt_neg1_int16}, ++ {idx: 5, exp: ge, fn: ge_neg1_int16}, ++ {idx: 5, exp: eq, fn: eq_neg1_int16}, ++ {idx: 5, exp: ne, fn: ne_neg1_int16}, ++ {idx: 6, exp: lt, fn: lt_0_int16}, ++ {idx: 6, exp: le, fn: le_0_int16}, ++ {idx: 6, exp: gt, fn: gt_0_int16}, ++ {idx: 6, exp: ge, fn: ge_0_int16}, ++ {idx: 6, exp: eq, fn: eq_0_int16}, ++ {idx: 6, exp: ne, fn: ne_0_int16}, ++ {idx: 7, exp: lt, fn: lt_1_int16}, ++ {idx: 7, exp: le, fn: le_1_int16}, ++ {idx: 7, exp: gt, fn: gt_1_int16}, ++ {idx: 7, exp: ge, fn: ge_1_int16}, ++ {idx: 7, exp: eq, fn: eq_1_int16}, ++ {idx: 7, exp: ne, fn: ne_1_int16}, ++ {idx: 8, exp: lt, fn: lt_126_int16}, ++ {idx: 8, exp: le, fn: le_126_int16}, ++ {idx: 8, exp: gt, fn: gt_126_int16}, ++ {idx: 8, exp: ge, fn: ge_126_int16}, ++ {idx: 8, exp: eq, fn: eq_126_int16}, ++ {idx: 8, exp: ne, fn: ne_126_int16}, ++ {idx: 9, exp: lt, fn: lt_127_int16}, ++ {idx: 9, exp: le, fn: le_127_int16}, ++ {idx: 9, exp: gt, fn: gt_127_int16}, ++ {idx: 9, exp: ge, fn: ge_127_int16}, ++ {idx: 9, exp: eq, fn: eq_127_int16}, ++ {idx: 9, exp: ne, fn: ne_127_int16}, ++ {idx: 10, exp: lt, fn: lt_128_int16}, ++ {idx: 10, exp: le, fn: le_128_int16}, ++ {idx: 10, exp: gt, fn: gt_128_int16}, ++ {idx: 10, exp: ge, fn: ge_128_int16}, ++ {idx: 10, exp: eq, fn: eq_128_int16}, ++ {idx: 10, exp: ne, fn: ne_128_int16}, ++ {idx: 11, exp: lt, fn: lt_254_int16}, ++ {idx: 11, exp: le, fn: le_254_int16}, ++ {idx: 11, exp: gt, fn: gt_254_int16}, ++ {idx: 11, exp: ge, fn: ge_254_int16}, ++ {idx: 11, exp: eq, fn: eq_254_int16}, ++ {idx: 11, exp: ne, fn: ne_254_int16}, ++ {idx: 12, exp: lt, fn: lt_255_int16}, ++ {idx: 12, exp: le, fn: le_255_int16}, ++ {idx: 12, exp: gt, fn: gt_255_int16}, ++ {idx: 12, exp: ge, fn: ge_255_int16}, ++ {idx: 12, exp: eq, fn: eq_255_int16}, ++ {idx: 12, exp: ne, fn: ne_255_int16}, ++ {idx: 13, exp: lt, fn: lt_256_int16}, ++ {idx: 13, exp: le, fn: le_256_int16}, ++ {idx: 13, exp: gt, fn: gt_256_int16}, ++ {idx: 13, exp: ge, fn: ge_256_int16}, ++ {idx: 13, exp: eq, fn: eq_256_int16}, ++ {idx: 13, exp: ne, fn: ne_256_int16}, ++ {idx: 14, exp: lt, fn: lt_32766_int16}, ++ {idx: 14, exp: le, fn: le_32766_int16}, ++ {idx: 14, exp: gt, fn: gt_32766_int16}, ++ {idx: 14, exp: ge, fn: ge_32766_int16}, ++ {idx: 14, exp: eq, fn: eq_32766_int16}, ++ {idx: 14, exp: ne, fn: ne_32766_int16}, ++ {idx: 15, exp: lt, fn: lt_32767_int16}, ++ {idx: 15, exp: le, fn: le_32767_int16}, ++ {idx: 15, exp: gt, fn: gt_32767_int16}, ++ {idx: 15, exp: ge, fn: ge_32767_int16}, ++ {idx: 15, exp: eq, fn: eq_32767_int16}, ++ {idx: 15, exp: ne, fn: ne_32767_int16}, ++} ++ ++// int8 tests ++var int8_vals = []int8{ ++ -128, ++ -127, ++ -1, ++ 0, ++ 1, ++ 126, ++ 127, ++} ++ ++func lt_neg128_int8(x int8) bool { return x < -128 } ++func le_neg128_int8(x int8) bool { return x <= -128 } ++func gt_neg128_int8(x int8) bool { return x > -128 } ++func ge_neg128_int8(x int8) bool { return x >= -128 } ++func eq_neg128_int8(x int8) bool { return x == -128 } ++func ne_neg128_int8(x int8) bool { return x != -128 } ++func lt_neg127_int8(x int8) bool { return x < -127 } ++func le_neg127_int8(x int8) bool { return x <= -127 } ++func gt_neg127_int8(x int8) bool { return x > -127 } ++func ge_neg127_int8(x int8) bool { return x >= -127 } ++func eq_neg127_int8(x int8) bool { return x == -127 } ++func ne_neg127_int8(x int8) bool { return x != -127 } ++func lt_neg1_int8(x int8) bool { return x < -1 } ++func le_neg1_int8(x int8) bool { return x <= -1 } ++func gt_neg1_int8(x int8) bool { return x > -1 } ++func ge_neg1_int8(x int8) bool { return x >= -1 } ++func eq_neg1_int8(x int8) bool { return x == -1 } ++func ne_neg1_int8(x int8) bool { return x != -1 } ++func lt_0_int8(x int8) bool { return x < 0 } ++func le_0_int8(x int8) bool { return x <= 0 } ++func gt_0_int8(x int8) bool { return x > 0 } ++func ge_0_int8(x int8) bool { return x >= 0 } ++func eq_0_int8(x int8) bool { return x == 0 } ++func ne_0_int8(x int8) bool { return x != 0 } ++func lt_1_int8(x int8) bool { return x < 1 } ++func le_1_int8(x int8) bool { return x <= 1 } ++func gt_1_int8(x int8) bool { return x > 1 } ++func ge_1_int8(x int8) bool { return x >= 1 } ++func eq_1_int8(x int8) bool { return x == 1 } ++func ne_1_int8(x int8) bool { return x != 1 } ++func lt_126_int8(x int8) bool { return x < 126 } ++func le_126_int8(x int8) bool { return x <= 126 } ++func gt_126_int8(x int8) bool { return x > 126 } ++func ge_126_int8(x int8) bool { return x >= 126 } ++func eq_126_int8(x int8) bool { return x == 126 } ++func ne_126_int8(x int8) bool { return x != 126 } ++func lt_127_int8(x int8) bool { return x < 127 } ++func le_127_int8(x int8) bool { return x <= 127 } ++func gt_127_int8(x int8) bool { return x > 127 } ++func ge_127_int8(x int8) bool { return x >= 127 } ++func eq_127_int8(x int8) bool { return x == 127 } ++func ne_127_int8(x int8) bool { return x != 127 } ++ ++var int8_tests = []struct { ++ idx int // index of the constant used ++ exp result // expected results ++ fn func(int8) bool ++}{ ++ {idx: 0, exp: lt, fn: lt_neg128_int8}, ++ {idx: 0, exp: le, fn: le_neg128_int8}, ++ {idx: 0, exp: gt, fn: gt_neg128_int8}, ++ {idx: 0, exp: ge, fn: ge_neg128_int8}, ++ {idx: 0, exp: eq, fn: eq_neg128_int8}, ++ {idx: 0, exp: ne, fn: ne_neg128_int8}, ++ {idx: 1, exp: lt, fn: lt_neg127_int8}, ++ {idx: 1, exp: le, fn: le_neg127_int8}, ++ {idx: 1, exp: gt, fn: gt_neg127_int8}, ++ {idx: 1, exp: ge, fn: ge_neg127_int8}, ++ {idx: 1, exp: eq, fn: eq_neg127_int8}, ++ {idx: 1, exp: ne, fn: ne_neg127_int8}, ++ {idx: 2, exp: lt, fn: lt_neg1_int8}, ++ {idx: 2, exp: le, fn: le_neg1_int8}, ++ {idx: 2, exp: gt, fn: gt_neg1_int8}, ++ {idx: 2, exp: ge, fn: ge_neg1_int8}, ++ {idx: 2, exp: eq, fn: eq_neg1_int8}, ++ {idx: 2, exp: ne, fn: ne_neg1_int8}, ++ {idx: 3, exp: lt, fn: lt_0_int8}, ++ {idx: 3, exp: le, fn: le_0_int8}, ++ {idx: 3, exp: gt, fn: gt_0_int8}, ++ {idx: 3, exp: ge, fn: ge_0_int8}, ++ {idx: 3, exp: eq, fn: eq_0_int8}, ++ {idx: 3, exp: ne, fn: ne_0_int8}, ++ {idx: 4, exp: lt, fn: lt_1_int8}, ++ {idx: 4, exp: le, fn: le_1_int8}, ++ {idx: 4, exp: gt, fn: gt_1_int8}, ++ {idx: 4, exp: ge, fn: ge_1_int8}, ++ {idx: 4, exp: eq, fn: eq_1_int8}, ++ {idx: 4, exp: ne, fn: ne_1_int8}, ++ {idx: 5, exp: lt, fn: lt_126_int8}, ++ {idx: 5, exp: le, fn: le_126_int8}, ++ {idx: 5, exp: gt, fn: gt_126_int8}, ++ {idx: 5, exp: ge, fn: ge_126_int8}, ++ {idx: 5, exp: eq, fn: eq_126_int8}, ++ {idx: 5, exp: ne, fn: ne_126_int8}, ++ {idx: 6, exp: lt, fn: lt_127_int8}, ++ {idx: 6, exp: le, fn: le_127_int8}, ++ {idx: 6, exp: gt, fn: gt_127_int8}, ++ {idx: 6, exp: ge, fn: ge_127_int8}, ++ {idx: 6, exp: eq, fn: eq_127_int8}, ++ {idx: 6, exp: ne, fn: ne_127_int8}, ++} ++ ++func main() { ++ for i, test := range uint64_tests { ++ for j, x := range uint64_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=uint64 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range uint32_tests { ++ for j, x := range uint32_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=uint32 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range uint16_tests { ++ for j, x := range uint16_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=uint16 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range uint8_tests { ++ for j, x := range uint8_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=uint8 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range int64_tests { ++ for j, x := range int64_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=int64 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range int32_tests { ++ for j, x := range int32_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=int32 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range int16_tests { ++ for j, x := range int16_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=int16 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++ for i, test := range int8_tests { ++ for j, x := range int8_vals { ++ want := test.exp.l ++ if j == test.idx { ++ want = test.exp.e ++ } else if j > test.idx { ++ want = test.exp.r ++ } ++ if test.fn(x) != want { ++ fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name() ++ msg := fmt.Sprintf("test failed: %v(%v) != %v [type=int8 i=%v j=%v idx=%v]", fn, x, want, i, j, test.idx) ++ panic(msg) ++ } ++ } ++ } ++} +diff --git a/src/cmd/compile/internal/gc/testdata/gen/cmpConstGen.go b/src/cmd/compile/internal/gc/testdata/gen/cmpConstGen.go +new file mode 100644 +index 0000000..defa4a9 +--- /dev/null ++++ b/src/cmd/compile/internal/gc/testdata/gen/cmpConstGen.go +@@ -0,0 +1,248 @@ ++// Copyright 2017 The Go Authors. All rights reserved. ++// Use of this source code is governed by a BSD-style ++// license that can be found in the LICENSE file. ++ ++// This program generates a test to verify that the standard comparison ++// operators properly handle one const operand. The test file should be ++// generated with a known working version of go. ++// launch with `go run cmpConstGen.go` a file called cmpConst.go ++// will be written into the parent directory containing the tests ++ ++package main ++ ++import ( ++ "bytes" ++ "fmt" ++ "go/format" ++ "io/ioutil" ++ "log" ++ "math/big" ++ "sort" ++) ++ ++const ( ++ maxU64 = (1 << 64) - 1 ++ maxU32 = (1 << 32) - 1 ++ maxU16 = (1 << 16) - 1 ++ maxU8 = (1 << 8) - 1 ++ ++ maxI64 = (1 << 63) - 1 ++ maxI32 = (1 << 31) - 1 ++ maxI16 = (1 << 15) - 1 ++ maxI8 = (1 << 7) - 1 ++ ++ minI64 = -(1 << 63) ++ minI32 = -(1 << 31) ++ minI16 = -(1 << 15) ++ minI8 = -(1 << 7) ++) ++ ++func cmp(left *big.Int, op string, right *big.Int) bool { ++ switch left.Cmp(right) { ++ case -1: // less than ++ return op == "<" || op == "<=" || op == "!=" ++ case 0: // equal ++ return op == "==" || op == "<=" || op == ">=" ++ case 1: // greater than ++ return op == ">" || op == ">=" || op == "!=" ++ } ++ panic("unexpected comparison value") ++} ++ ++func inRange(typ string, val *big.Int) bool { ++ min, max := &big.Int{}, &big.Int{} ++ switch typ { ++ case "uint64": ++ max = max.SetUint64(maxU64) ++ case "uint32": ++ max = max.SetUint64(maxU32) ++ case "uint16": ++ max = max.SetUint64(maxU16) ++ case "uint8": ++ max = max.SetUint64(maxU8) ++ case "int64": ++ min = min.SetInt64(minI64) ++ max = max.SetInt64(maxI64) ++ case "int32": ++ min = min.SetInt64(minI32) ++ max = max.SetInt64(maxI32) ++ case "int16": ++ min = min.SetInt64(minI16) ++ max = max.SetInt64(maxI16) ++ case "int8": ++ min = min.SetInt64(minI8) ++ max = max.SetInt64(maxI8) ++ default: ++ panic("unexpected type") ++ } ++ return cmp(min, "<=", val) && cmp(val, "<=", max) ++} ++ ++func getValues(typ string) []*big.Int { ++ Uint := func(v uint64) *big.Int { return big.NewInt(0).SetUint64(v) } ++ Int := func(v int64) *big.Int { return big.NewInt(0).SetInt64(v) } ++ values := []*big.Int{ ++ // limits ++ Uint(maxU64), ++ Uint(maxU64 - 1), ++ Uint(maxI64 + 1), ++ Uint(maxI64), ++ Uint(maxI64 - 1), ++ Uint(maxU32 + 1), ++ Uint(maxU32), ++ Uint(maxU32 - 1), ++ Uint(maxI32 + 1), ++ Uint(maxI32), ++ Uint(maxI32 - 1), ++ Uint(maxU16 + 1), ++ Uint(maxU16), ++ Uint(maxU16 - 1), ++ Uint(maxI16 + 1), ++ Uint(maxI16), ++ Uint(maxI16 - 1), ++ Uint(maxU8 + 1), ++ Uint(maxU8), ++ Uint(maxU8 - 1), ++ Uint(maxI8 + 1), ++ Uint(maxI8), ++ Uint(maxI8 - 1), ++ Uint(0), ++ Int(minI8 + 1), ++ Int(minI8), ++ Int(minI8 - 1), ++ Int(minI16 + 1), ++ Int(minI16), ++ Int(minI16 - 1), ++ Int(minI32 + 1), ++ Int(minI32), ++ Int(minI32 - 1), ++ Int(minI64 + 1), ++ Int(minI64), ++ ++ // other possibly interesting values ++ Uint(1), ++ Int(-1), ++ Uint(0xff << 56), ++ Uint(0xff << 32), ++ Uint(0xff << 24), ++ } ++ sort.Slice(values, func(i, j int) bool { return values[i].Cmp(values[j]) == -1 }) ++ var ret []*big.Int ++ for _, val := range values { ++ if !inRange(typ, val) { ++ continue ++ } ++ ret = append(ret, val) ++ } ++ return ret ++} ++ ++func sigString(v *big.Int) string { ++ var t big.Int ++ t.Abs(v) ++ if v.Sign() == -1 { ++ return "neg" + t.String() ++ } ++ return t.String() ++} ++ ++func main() { ++ types := []string{ ++ "uint64", "uint32", "uint16", "uint8", ++ "int64", "int32", "int16", "int8", ++ } ++ ++ w := new(bytes.Buffer) ++ fmt.Fprintf(w, "// run\n") ++ fmt.Fprintf(w, "// Code generated by gen/cmpConstGen.go. DO NOT EDIT.\n\n") ++ fmt.Fprintf(w, "package main;\n") ++ fmt.Fprintf(w, "import (\"fmt\"; \"reflect\"; \"runtime\";)\n") ++ fmt.Fprintf(w, "// results show the expected result for the elements left of, equal to and right of the index.\n") ++ fmt.Fprintf(w, "type result struct{l, e, r bool}\n") ++ fmt.Fprintf(w, "var (\n") ++ fmt.Fprintf(w, " eq = result{l: false, e: true, r: false}\n") ++ fmt.Fprintf(w, " ne = result{l: true, e: false, r: true}\n") ++ fmt.Fprintf(w, " lt = result{l: true, e: false, r: false}\n") ++ fmt.Fprintf(w, " le = result{l: true, e: true, r: false}\n") ++ fmt.Fprintf(w, " gt = result{l: false, e: false, r: true}\n") ++ fmt.Fprintf(w, " ge = result{l: false, e: true, r: true}\n") ++ fmt.Fprintf(w, ")\n") ++ ++ operators := []struct{ op, name string }{ ++ {"<", "lt"}, ++ {"<=", "le"}, ++ {">", "gt"}, ++ {">=", "ge"}, ++ {"==", "eq"}, ++ {"!=", "ne"}, ++ } ++ ++ for _, typ := range types { ++ // generate a slice containing valid values for this type ++ fmt.Fprintf(w, "\n// %v tests\n", typ) ++ values := getValues(typ) ++ fmt.Fprintf(w, "var %v_vals = []%v{\n", typ, typ) ++ for _, val := range values { ++ fmt.Fprintf(w, "%v,\n", val.String()) ++ } ++ fmt.Fprintf(w, "}\n") ++ ++ // generate test functions ++ for _, r := range values { ++ // TODO: could also test constant on lhs. ++ sig := sigString(r) ++ for _, op := range operators { ++ // no need for go:noinline because the function is called indirectly ++ fmt.Fprintf(w, "func %v_%v_%v(x %v) bool { return x %v %v; }\n", op.name, sig, typ, typ, op.op, r.String()) ++ } ++ } ++ ++ // generate a table of test cases ++ fmt.Fprintf(w, "var %v_tests = []struct{\n", typ) ++ fmt.Fprintf(w, " idx int // index of the constant used\n") ++ fmt.Fprintf(w, " exp result // expected results\n") ++ fmt.Fprintf(w, " fn func(%v) bool\n", typ) ++ fmt.Fprintf(w, "}{\n") ++ for i, r := range values { ++ sig := sigString(r) ++ for _, op := range operators { ++ fmt.Fprintf(w, "{idx: %v,", i) ++ fmt.Fprintf(w, "exp: %v,", op.name) ++ fmt.Fprintf(w, "fn: %v_%v_%v},\n", op.name, sig, typ) ++ } ++ } ++ fmt.Fprintf(w, "}\n") ++ } ++ ++ // emit the main function, looping over all test cases ++ fmt.Fprintf(w, "func main() {\n") ++ for _, typ := range types { ++ fmt.Fprintf(w, "for i, test := range %v_tests {\n", typ) ++ fmt.Fprintf(w, " for j, x := range %v_vals {\n", typ) ++ fmt.Fprintf(w, " want := test.exp.l\n") ++ fmt.Fprintf(w, " if j == test.idx {\nwant = test.exp.e\n}") ++ fmt.Fprintf(w, " else if j > test.idx {\nwant = test.exp.r\n}\n") ++ fmt.Fprintf(w, " if test.fn(x) != want {\n") ++ fmt.Fprintf(w, " fn := runtime.FuncForPC(reflect.ValueOf(test.fn).Pointer()).Name()\n") ++ fmt.Fprintf(w, " msg := fmt.Sprintf(\"test failed: %%v(%%v) != %%v [type=%v i=%%v j=%%v idx=%%v]\", fn, x, want, i, j, test.idx)\n", typ) ++ fmt.Fprintf(w, " panic(msg)\n") ++ fmt.Fprintf(w, " }\n") ++ fmt.Fprintf(w, " }\n") ++ fmt.Fprintf(w, "}\n") ++ } ++ fmt.Fprintf(w, "}\n") ++ ++ // gofmt result ++ b := w.Bytes() ++ src, err := format.Source(b) ++ if err != nil { ++ fmt.Printf("%s\n", b) ++ panic(err) ++ } ++ ++ // write to file ++ err = ioutil.WriteFile("../cmpConst.go", src, 0666) ++ if err != nil { ++ log.Fatalf("can't write output: %v\n", err) ++ } ++} +diff --git a/src/cmd/compile/internal/ssa/gen/S390X.rules b/src/cmd/compile/internal/ssa/gen/S390X.rules +index 7ecea02..caea050 100644 +--- a/src/cmd/compile/internal/ssa/gen/S390X.rules ++++ b/src/cmd/compile/internal/ssa/gen/S390X.rules +@@ -537,8 +537,8 @@ + (CMP (MOVDconst [c]) x) && is32Bit(c) -> (InvertFlags (CMPconst x [c])) + (CMPW x (MOVDconst [c])) -> (CMPWconst x [c]) + (CMPW (MOVDconst [c]) x) -> (InvertFlags (CMPWconst x [c])) +-(CMPU x (MOVDconst [c])) && is32Bit(c) -> (CMPUconst x [int64(uint32(c))]) +-(CMPU (MOVDconst [c]) x) && is32Bit(c) -> (InvertFlags (CMPUconst x [int64(uint32(c))])) ++(CMPU x (MOVDconst [c])) && isU32Bit(c) -> (CMPUconst x [int64(uint32(c))]) ++(CMPU (MOVDconst [c]) x) && isU32Bit(c) -> (InvertFlags (CMPUconst x [int64(uint32(c))])) + (CMPWU x (MOVDconst [c])) -> (CMPWUconst x [int64(uint32(c))]) + (CMPWU (MOVDconst [c]) x) -> (InvertFlags (CMPWUconst x [int64(uint32(c))])) + +diff --git a/src/cmd/compile/internal/ssa/rewriteS390X.go b/src/cmd/compile/internal/ssa/rewriteS390X.go +index 866cf50..af8fd1d 100644 +--- a/src/cmd/compile/internal/ssa/rewriteS390X.go ++++ b/src/cmd/compile/internal/ssa/rewriteS390X.go +@@ -6784,7 +6784,7 @@ func rewriteValueS390X_OpS390XCMPU(v *Value, config *Config) bool { + b := v.Block + _ = b + // match: (CMPU x (MOVDconst [c])) +- // cond: is32Bit(c) ++ // cond: isU32Bit(c) + // result: (CMPUconst x [int64(uint32(c))]) + for { + x := v.Args[0] +@@ -6793,7 +6793,7 @@ func rewriteValueS390X_OpS390XCMPU(v *Value, config *Config) bool { + break + } + c := v_1.AuxInt +- if !(is32Bit(c)) { ++ if !(isU32Bit(c)) { + break + } + v.reset(OpS390XCMPUconst) +@@ -6802,7 +6802,7 @@ func rewriteValueS390X_OpS390XCMPU(v *Value, config *Config) bool { + return true + } + // match: (CMPU (MOVDconst [c]) x) +- // cond: is32Bit(c) ++ // cond: isU32Bit(c) + // result: (InvertFlags (CMPUconst x [int64(uint32(c))])) + for { + v_0 := v.Args[0] +@@ -6811,7 +6811,7 @@ func rewriteValueS390X_OpS390XCMPU(v *Value, config *Config) bool { + } + c := v_0.AuxInt + x := v.Args[1] +- if !(is32Bit(c)) { ++ if !(isU32Bit(c)) { + break + } + v.reset(OpS390XInvertFlags)