crosstest/test_icmp_main.cpp - Issue 412593002: Lower icmp operations between vector values.

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Issue 412593002: Lower icmp operations between vector values. (Closed) Base URL: https://gerrit.chromium.org/gerrit/p/native_client/pnacl-subzero.git@master

Patch Set: Address comments, add CHECK-LABEL directives to test Created 6 years, 5 months ago

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1 /* crosstest.py --test=test_icmp.cpp --driver=test_icmp_main.cpp \	1 //===- subzero/crosstest/test_icmp_main.cpp - Driver for tests. -----------===//

2 --prefix=Subzero_ --output=test_icmp */	2 //

	3 // The Subzero Code Generator

	4 //

	5 // This file is distributed under the University of Illinois Open Source

	6 // License. See LICENSE.TXT for details.

	7 //

	8 //===----------------------------------------------------------------------===//

	9 //

	10 // Driver for cross testing the icmp bitcode instruction

	11 //

	12 //===----------------------------------------------------------------------===//

3	13

	14 /* crosstest.py --test=test_icmp.cpp --test=test_icmp_i1vec.ll \

	15 --driver=test_icmp_main.cpp --prefix=Subzero_ --output=test_icmp */

	16

	17 #include <climits> // CHAR_BIT

	18 #include <cstring> // memcmp, memset

4 #include <stdint.h>	19 #include <stdint.h>

5 #include <iostream>	20 #include <iostream>

6	21

7 // Include test_icmp.h twice - once normally, and once within the	22 // Include test_icmp.h twice - once normally, and once within the

8 // Subzero_ namespace, corresponding to the llc and Subzero translated	23 // Subzero_ namespace, corresponding to the llc and Subzero translated

9 // object files, respectively.	24 // object files, respectively.

10 #include "test_icmp.h"	25 #include "test_icmp.h"

11 namespace Subzero_ {	26 namespace Subzero_ {

12 #include "test_icmp.h"	27 #include "test_icmp.h"

13 }	28 }

(...skipping 14 matching lines...) Expand all Loading...
28 const char *Name;	43 const char *Name;

29 FuncTypeUnsigned FuncLlc;	44 FuncTypeUnsigned FuncLlc;

30 FuncTypeUnsigned FuncSz;	45 FuncTypeUnsigned FuncSz;

31 } Funcs[] = {	46 } Funcs[] = {

32 #define X(cmp, op) \	47 #define X(cmp, op) \

33 { \	48 { \

34 STR(inst), (FuncTypeUnsigned)icmp##cmp, \	49 STR(inst), (FuncTypeUnsigned)icmp##cmp, \

35 (FuncTypeUnsigned)Subzero_::icmp##cmp \	50 (FuncTypeUnsigned)Subzero_::icmp##cmp \

36 } \	51 } \

37 ,	52 ,

38 ICMP_U_TABLE	53 ICMP_U_TABLE

39 #undef X	54 #undef X

40 #define X(cmp, op) \	55 #define X(cmp, op) \

41 { \	56 { \

42 STR(inst), (FuncTypeUnsigned)(FuncTypeSigned)icmp##cmp, \	57 STR(inst), (FuncTypeUnsigned)(FuncTypeSigned)icmp##cmp, \

43 (FuncTypeUnsigned)(FuncTypeSigned)Subzero_::icmp##cmp \	58 (FuncTypeUnsigned)(FuncTypeSigned)Subzero_::icmp##cmp \

44 } \	59 } \

45 ,	60 ,

46 ICMP_S_TABLE	61 ICMP_S_TABLE

47 #undef X	62 #undef X

48 };	63 };

49 const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);	64 const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);

50	65

51 if (sizeof(TypeUnsigned) <= sizeof(uint32_t)) {	66 if (sizeof(TypeUnsigned) <= sizeof(uint32_t)) {

52 // This is the "normal" version of the loop nest, for 32-bit or	67 // This is the "normal" version of the loop nest, for 32-bit or

53 // narrower types.	68 // narrower types.

54 for (size_t f = 0; f < NumFuncs; ++f) {	69 for (size_t f = 0; f < NumFuncs; ++f) {

55 for (size_t i = 0; i < NumValues; ++i) {	70 for (size_t i = 0; i < NumValues; ++i) {

56 for (size_t j = 0; j < NumValues; ++j) {	71 for (size_t j = 0; j < NumValues; ++j) {

57 TypeUnsigned Value1 = Values[i];	72 TypeUnsigned Value1 = Values[i];

58 TypeUnsigned Value2 = Values[j];	73 TypeUnsigned Value2 = Values[j];

59 ++TotalTests;	74 ++TotalTests;

60 bool ResultSz = Funcs[f].FuncSz(Value1, Value2);	75 bool ResultSz = Funcs[f].FuncSz(Value1, Value2);

61 bool ResultLlc = Funcs[f].FuncLlc(Value1, Value2);	76 bool ResultLlc = Funcs[f].FuncLlc(Value1, Value2);

62 if (ResultSz == ResultLlc) {	77 if (ResultSz == ResultLlc) {

63 ++Passes;	78 ++Passes;

64 } else {	79 } else {

65 ++Failures;	80 ++Failures;

66 std::cout << "icmp" << Funcs[f].Name << (8 * sizeof(TypeUnsigned))	81 std::cout << "icmp" << Funcs[f].Name

67 << "(" << Value1 << ", " << Value2 << "): sz=" << ResultSz	82 << (CHAR_BIT * sizeof(TypeUnsigned)) << "(" << Value1

	83 << ", " << Value2 << "): sz=" << ResultSz

68 << " llc=" << ResultLlc << std::endl;	84 << " llc=" << ResultLlc << std::endl;

69 }	85 }

70 }	86 }

71 }	87 }

72 }	88 }

73 } else {	89 } else {

74 // This is the 64-bit version. Test values are synthesized from	90 // This is the 64-bit version. Test values are synthesized from

75 // the 32-bit values in Values[].	91 // the 32-bit values in Values[].

76 for (size_t f = 0; f < NumFuncs; ++f) {	92 for (size_t f = 0; f < NumFuncs; ++f) {

77 for (size_t iLo = 0; iLo < NumValues; ++iLo) {	93 for (size_t iLo = 0; iLo < NumValues; ++iLo) {

78 for (size_t iHi = 0; iHi < NumValues; ++iHi) {	94 for (size_t iHi = 0; iHi < NumValues; ++iHi) {

79 for (size_t jLo = 0; jLo < NumValues; ++jLo) {	95 for (size_t jLo = 0; jLo < NumValues; ++jLo) {

80 for (size_t jHi = 0; jHi < NumValues; ++jHi) {	96 for (size_t jHi = 0; jHi < NumValues; ++jHi) {

81 TypeUnsigned Value1 =	97 TypeUnsigned Value1 =

82 (((TypeUnsigned)Values[iHi]) << 32) + Values[iLo];	98 (((TypeUnsigned)Values[iHi]) << 32) + Values[iLo];

83 TypeUnsigned Value2 =	99 TypeUnsigned Value2 =

84 (((TypeUnsigned)Values[jHi]) << 32) + Values[jLo];	100 (((TypeUnsigned)Values[jHi]) << 32) + Values[jLo];

85 ++TotalTests;	101 ++TotalTests;

86 bool ResultSz = Funcs[f].FuncSz(Value1, Value2);	102 bool ResultSz = Funcs[f].FuncSz(Value1, Value2);

87 bool ResultLlc = Funcs[f].FuncLlc(Value1, Value2);	103 bool ResultLlc = Funcs[f].FuncLlc(Value1, Value2);

88 if (ResultSz == ResultLlc) {	104 if (ResultSz == ResultLlc) {

89 ++Passes;	105 ++Passes;

90 } else {	106 } else {

91 ++Failures;	107 ++Failures;

92 std::cout << "icmp" << Funcs[f].Name	108 std::cout << "icmp" << Funcs[f].Name

93 << (8 * sizeof(TypeUnsigned)) << "(" << Value1 << ", "	109 << (CHAR_BIT * sizeof(TypeUnsigned)) << "(" << Value1

94 << Value2 << "): sz=" << ResultSz	110 << ", " << Value2 << "): sz=" << ResultSz

95 << " llc=" << ResultLlc << std::endl;	111 << " llc=" << ResultLlc << std::endl;

96 }	112 }

97 }	113 }

98 }	114 }

99 }	115 }

100 }	116 }

101 }	117 }

102 }	118 }

103 }	119 }

104	120

	121 const static size_t MaxTestsPerFunc = 100000;

	122

	123 template <typename TypeUnsignedLabel, typename TypeSignedLabel>

	124 void testsVecInt(size_t &TotalTests, size_t &Passes, size_t &Failures) {

	125 typedef typename Vectors<TypeUnsignedLabel>::Ty TypeUnsigned;

	126 typedef typename Vectors<TypeSignedLabel>::Ty TypeSigned;

	127 typedef typename Vectors<TypeUnsignedLabel>::ElementTy ElementTypeUnsigned;

	128 typedef typename Vectors<TypeSignedLabel>::ElementTy ElementTypeSigned;

	129 typedef TypeUnsigned (*FuncTypeUnsigned)(TypeUnsigned, TypeUnsigned);

	130 typedef TypeSigned (*FuncTypeSigned)(TypeSigned, TypeSigned);

	131 static struct {

	132 const char *Name;

	133 FuncTypeUnsigned FuncLlc;

	134 FuncTypeUnsigned FuncSz;

	135 } Funcs[] = {

	136 #define X(cmp, op) \

	137 { \

	138 STR(inst), (FuncTypeUnsigned)icmp##cmp, \

	139 (FuncTypeUnsigned)Subzero_::icmp##cmp \

	140 } \

	141 ,

	142 ICMP_U_TABLE

	143 #undef X

	144 #define X(cmp, op) \

	145 { \

	146 STR(inst), (FuncTypeUnsigned)(FuncTypeSigned)icmp##cmp, \

	147 (FuncTypeUnsigned)(FuncTypeSigned)Subzero_::icmp##cmp \

	148 } \

	149 ,

	150 ICMP_S_TABLE

	151 #undef X

	152 };

	153 const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);

	154 const static size_t NumElementsInType = Vectors<TypeUnsigned>::NumElements;

	155 for (size_t f = 0; f < NumFuncs; ++f) {

	156 PRNG Index;

	157 for (size_t i = 0; i < MaxTestsPerFunc; ++i) {

	158 // Initialize the test vectors.

	159 TypeUnsigned Value1, Value2;

	160 for (size_t j = 0; j < NumElementsInType;) {

	161 Value1[j] = Values[Index() % NumValues];

	162 Value2[j] = Values[Index() % NumValues];

	163 ++j;

	164 }

	165 // Perform the test.

	166 TypeUnsigned ResultSz = Funcs[f].FuncSz(Value1, Value2);

	167 TypeUnsigned ResultLlc = Funcs[f].FuncLlc(Value1, Value2);

	168 ++TotalTests;

	169 if (!memcmp(&ResultSz, &ResultLlc, sizeof(ResultSz))) {

	170 ++Passes;

	171 } else {

	172 ++Failures;

	173 std::cout << "test" << Funcs[f].Name

	174 << Vectors<TypeUnsignedLabel>::TypeName << "("

	175 << vectAsString<TypeUnsignedLabel>(Value1) << ","

	176 << vectAsString<TypeUnsignedLabel>(Value2)

	177 << "): sz=" << vectAsString<TypeUnsignedLabel>(ResultSz)

	178 << " llc=" << vectAsString<TypeUnsignedLabel>(ResultLlc)

	179 << std::endl;

	180 }

	181 }

	182 }

	183 }

	184

	185 // Return true on wraparound

	186 template <typename T> bool incrementI1Vector(typename Vectors<T>::Ty &Vect) {

	187 size_t Pos = 0;

	188 const static size_t NumElements = Vectors<T>::NumElements;

	189 for (Pos = 0; Pos < NumElements; ++Pos) {

	190 if (Vect[Pos] == 0) {

	191 Vect[Pos] = 1;

	192 break;

	193 }

	194 Vect[Pos] = 0;

	195 }

	196 return (Pos == NumElements);

	197 }

	198

	199 template <typename T>

	200 void testsVecI1(size_t &TotalTests, size_t &Passes, size_t &Failures) {

	201 typedef typename Vectors<T>::Ty Ty;

	202 typedef Ty (*FuncType)(Ty, Ty);

	203 static struct {

	204 const char *Name;

	205 FuncType FuncLlc;

	206 FuncType FuncSz;

	207 } Funcs[] = {

	208 #define X(cmp, op) \

	209 { STR(inst), (FuncType)icmpi1##cmp, (FuncType)Subzero_::icmpi1##cmp } \

	210 ,

	211 ICMP_U_TABLE

	212 ICMP_S_TABLE

	213 };

	214 const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);

	215 const static size_t NumElements = Vectors<T>::NumElements;

	216 const static size_t MAX_NUMBER_OF_ELEMENTS_FOR_EXHAUSTIVE_TESTING = 8;

	217

	218 // Check if the type is small enough to try all possible input pairs.

	219 if (NumElements <= MAX_NUMBER_OF_ELEMENTS_FOR_EXHAUSTIVE_TESTING) {

	220 for (size_t f = 0; f < NumFuncs; ++f) {

	221 Ty Value1, Value2;

	222 memset(&Value1, 0, sizeof(Value1));

	223 for (bool IsValue1Done = false; !IsValue1Done;

	224 IsValue1Done = incrementI1Vector<T>(Value1)) {

	225 memset(&Value2, 0, sizeof(Value2));

	226 for (bool IsValue2Done = false; !IsValue2Done;

	227 IsValue2Done = incrementI1Vector<T>(Value2)) {

	228 Ty ResultSz = Funcs[f].FuncSz(Value1, Value2);

	229 Ty ResultLlc = Funcs[f].FuncLlc(Value1, Value2);

	230 ++TotalTests;

	231 if (!memcmp(&ResultSz, &ResultLlc, sizeof(ResultSz))) {

	232 ++Passes;

	233 } else {

	234 ++Failures;

	235 std::cout << "test" << Funcs[f].Name << Vectors<T>::TypeName << "("

	236 << vectAsString<T>(Value1) << ","

	237 << vectAsString<T>(Value2)

	238 << "): sz=" << vectAsString<T>(ResultSz)

	239 << " llc=" << vectAsString<T>(ResultLlc) << std::endl;

	240 }

	241 }

	242 }

	243 }

	244 } else {

	245 for (size_t f = 0; f < NumFuncs; ++f) {

	246 PRNG Index;

	247 for (size_t i = 0; i < MaxTestsPerFunc; ++i) {

	248 Ty Value1, Value2;

	249 // Initialize the test vectors.

	250 for (size_t j = 0; j < NumElements; ++j) {

	251 Value1[j] = Index() % 2;

	252 Value2[j] = Index() % 2;

	253 }

	254 // Perform the test.

	255 Ty ResultSz = Funcs[f].FuncSz(Value1, Value2);

	256 Ty ResultLlc = Funcs[f].FuncLlc(Value1, Value2);

	257 ++TotalTests;

	258 if (!memcmp(&ResultSz, &ResultLlc, sizeof(ResultSz))) {

	259 ++Passes;

	260 } else {

	261 ++Failures;

	262 std::cout << "test" << Funcs[f].Name << Vectors<T>::TypeName << "("

	263 << vectAsString<T>(Value1) << "," << vectAsString<T>(Value2)

	264 << "): sz=" << vectAsString<T>(ResultSz)

	265 << " llc=" << vectAsString<T>(ResultLlc) << std::endl;

	266 }

	267 }

	268 }

	269 }

	270 }

	271

105 int main(int argc, char **argv) {	272 int main(int argc, char **argv) {

106 size_t TotalTests = 0;	273 size_t TotalTests = 0;

107 size_t Passes = 0;	274 size_t Passes = 0;

108 size_t Failures = 0;	275 size_t Failures = 0;

109	276

110 testsInt<uint8_t, int8_t>(TotalTests, Passes, Failures);	277 testsInt<uint8_t, int8_t>(TotalTests, Passes, Failures);

111 testsInt<uint16_t, int16_t>(TotalTests, Passes, Failures);	278 testsInt<uint16_t, int16_t>(TotalTests, Passes, Failures);

112 testsInt<uint32_t, int32_t>(TotalTests, Passes, Failures);	279 testsInt<uint32_t, int32_t>(TotalTests, Passes, Failures);

113 testsInt<uint64_t, int64_t>(TotalTests, Passes, Failures);	280 testsInt<uint64_t, int64_t>(TotalTests, Passes, Failures);

	281 testsVecInt<v4ui32, v4si32>(TotalTests, Passes, Failures);

	282 testsVecInt<v8ui16, v8si16>(TotalTests, Passes, Failures);

	283 testsVecInt<v16ui8, v16si8>(TotalTests, Passes, Failures);

	284 testsVecI1<v4i1>(TotalTests, Passes, Failures);

	285 testsVecI1<v8i1>(TotalTests, Passes, Failures);

	286 testsVecI1<v16i1>(TotalTests, Passes, Failures);

114	287

115 std::cout << "TotalTests=" << TotalTests << " Passes=" << Passes	288 std::cout << "TotalTests=" << TotalTests << " Passes=" << Passes

116 << " Failures=" << Failures << "\n";	289 << " Failures=" << Failures << "\n";

117 return Failures;	290 return Failures;

118 }	291 }

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