third_party/subzero/crosstest/test_fcmp_main.cpp - SwiftShader - Git at Google

 //===- subzero/crosstest/test_fcmp_main.cpp - Driver for tests ------------===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Driver for cross testing the fcmp bitcode instruction
 //
 //===----------------------------------------------------------------------===//

 /* crosstest.py --test=test_fcmp.pnacl.ll --driver=test_fcmp_main.cpp \
    --prefix=Subzero_ --output=test_fcmp */

 #include <cassert>
 #include <cfloat>
 #include <cmath>
 #include <cstring>
 #include <iostream>

 #include "vectors.h"
 #include "test_arith.def"
 #include "test_fcmp.def"

 #define X(cmp)                                                                 \
   extern "C" bool fcmp##cmp##Float(float a, float b);                          \
   extern "C" bool fcmp##cmp##Double(double a, double b);                       \
   extern "C" int fcmpSelect##cmp##Float(float a, float b, int c, int d);       \
   extern "C" int fcmpSelect##cmp##Double(double a, double b, int c, int d);    \
   extern "C" v4si32 fcmp##cmp##Vector(v4f32 a, v4f32 b);                       \
   extern "C" bool Subzero_fcmp##cmp##Float(float a, float b);                  \
   extern "C" bool Subzero_fcmp##cmp##Double(double a, double b);               \
   extern "C" int Subzero_fcmpSelect##cmp##Float(float a, float b, int c,       \
                                                 int d);                        \
   extern "C" int Subzero_fcmpSelect##cmp##Double(double a, double b, int c,    \
                                                  int d);                       \
   extern "C" v4si32 Subzero_fcmp##cmp##Vector(v4f32 a, v4f32 b);
 FCMP_TABLE;
 #undef X

 volatile double *Values;
 size_t NumValues;

 void initializeValues() {
   static const double NegInf = -1.0 / 0.0;
   static const double Zero = 0.0;
   static const double PosInf = 1.0 / 0.0;
   static const double Nan = 0.0 / 0.0;
   static const double NegNan = -0.0 / 0.0;
   assert(std::fpclassify(NegInf) == FP_INFINITE);
   assert(std::fpclassify(PosInf) == FP_INFINITE);
   assert(std::fpclassify(Nan) == FP_NAN);
   assert(std::fpclassify(NegNan) == FP_NAN);
   assert(NegInf < Zero);
   assert(NegInf < PosInf);
   assert(Zero < PosInf);
   static volatile double InitValues[] =
       FP_VALUE_ARRAY(NegInf, PosInf, NegNan, Nan);
   NumValues = sizeof(InitValues) / sizeof(*InitValues);
   Values = InitValues;
 }

 void testsScalar(size_t &TotalTests, size_t &Passes, size_t &Failures) {
   typedef bool (*FuncTypeFloat)(float, float);
   typedef bool (*FuncTypeDouble)(double, double);
   typedef int (*FuncTypeFloatSelect)(float, float, int, int);
   typedef int (*FuncTypeDoubleSelect)(double, double, int, int);
   static struct {
     const char *Name;
     FuncTypeFloat FuncFloatSz;
     FuncTypeFloat FuncFloatLlc;
     FuncTypeDouble FuncDoubleSz;
     FuncTypeDouble FuncDoubleLlc;
     FuncTypeFloatSelect FuncFloatSelectSz;
     FuncTypeFloatSelect FuncFloatSelectLlc;
     FuncTypeDoubleSelect FuncDoubleSelectSz;
     FuncTypeDoubleSelect FuncDoubleSelectLlc;
   } Funcs[] = {
 #define X(cmp)                                                                 \
   {                                                                            \
     "fcmp" STR(cmp), Subzero_fcmp##cmp##Float, fcmp##cmp##Float,               \
         Subzero_fcmp##cmp##Double, fcmp##cmp##Double,                          \
         Subzero_fcmpSelect##cmp##Float, fcmpSelect##cmp##Float,                \
         Subzero_fcmpSelect##cmp##Double, fcmpSelect##cmp##Double               \
   }                                                                            \
   ,
       FCMP_TABLE
 #undef X
   };
   const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);

   bool ResultSz, ResultLlc;

   assert(Values && NumValues);

   for (size_t f = 0; f < NumFuncs; ++f) {
     for (size_t i = 0; i < NumValues; ++i) {
       for (size_t j = 0; j < NumValues; ++j) {
         ++TotalTests;
         float Value1Float = Values[i];
         float Value2Float = Values[j];
         ResultSz = Funcs[f].FuncFloatSz(Value1Float, Value2Float);
         ResultLlc = Funcs[f].FuncFloatLlc(Value1Float, Value2Float);
         if (ResultSz == ResultLlc) {
           ++Passes;
         } else {
           ++Failures;
           std::cout << Funcs[f].Name << "Float(" << Value1Float << ", "
                     << Value2Float << "): sz=" << ResultSz
                     << " llc=" << ResultLlc << "\n";
         }
         ++TotalTests;
         double Value1Double = Values[i];
         double Value2Double = Values[j];
         ResultSz = Funcs[f].FuncDoubleSz(Value1Double, Value2Double);
         ResultLlc = Funcs[f].FuncDoubleLlc(Value1Double, Value2Double);
         if (ResultSz == ResultLlc) {
           ++Passes;
         } else {
           ++Failures;
           std::cout << Funcs[f].Name << "Double(" << Value1Double << ", "
                     << Value2Double << "): sz=" << ResultSz
                     << " llc=" << ResultLlc << "\n";
         }
         ++TotalTests;
         float Value1SelectFloat = Values[i];
         float Value2SelectFloat = Values[j];
         ResultSz = Funcs[f].FuncFloatSelectSz(Value1Float, Value2Float, 1, 2);
         ResultLlc = Funcs[f].FuncFloatSelectLlc(Value1Float, Value2Float, 1, 2);
         if (ResultSz == ResultLlc) {
           ++Passes;
         } else {
           ++Failures;
           std::cout << Funcs[f].Name << "SelectFloat(" << Value1Float << ", "
                     << Value2Float << "): sz=" << ResultSz
                     << " llc=" << ResultLlc << "\n";
         }
         ++TotalTests;
         double Value1SelectDouble = Values[i];
         double Value2SelectDouble = Values[j];
         ResultSz =
             Funcs[f].FuncDoubleSelectSz(Value1Double, Value2Double, 1, 2);
         ResultLlc =
             Funcs[f].FuncDoubleSelectLlc(Value1Double, Value2Double, 1, 2);
         if (ResultSz == ResultLlc) {
           ++Passes;
         } else {
           ++Failures;
           std::cout << Funcs[f].Name << "SelectDouble(" << Value1Double << ", "
                     << Value2Double << "): sz=" << ResultSz
                     << " llc=" << ResultLlc << "\n";
         }
       }
     }
   }
 }

 void testsVector(size_t &TotalTests, size_t &Passes, size_t &Failures) {
   typedef v4si32 (*FuncTypeVector)(v4f32, v4f32);
   static struct {
     const char *Name;
     FuncTypeVector FuncVectorSz;
     FuncTypeVector FuncVectorLlc;
   } Funcs[] = {
 #define X(cmp)                                                                 \
   { "fcmp" STR(cmp), Subzero_fcmp##cmp##Vector, fcmp##cmp##Vector }            \
   ,
       FCMP_TABLE
 #undef X
   };
   const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);
   const static size_t NumElementsInType = 4;
   const static size_t MaxTestsPerFunc = 100000;

   assert(Values && NumValues);

   for (size_t f = 0; f < NumFuncs; ++f) {
     PRNG Index;
     for (size_t i = 0; i < MaxTestsPerFunc; ++i) {
       v4f32 Value1, Value2;
       for (size_t j = 0; j < NumElementsInType; ++j) {
         Value1[j] = Values[Index() % NumValues];
         Value2[j] = Values[Index() % NumValues];
       }
       ++TotalTests;
       v4si32 ResultSz, ResultLlc;
       ResultSz = Funcs[f].FuncVectorSz(Value1, Value2);
       ResultLlc = Funcs[f].FuncVectorLlc(Value1, Value2);
       if (!memcmp(&ResultSz, &ResultLlc, sizeof(ResultSz))) {
         ++Passes;
       } else {
         ++Failures;
         std::cout << Funcs[f].Name << "Vector(" << vectAsString<v4f32>(Value1)
                   << ", " << vectAsString<v4f32>(Value2)
                   << "): sz=" << vectAsString<v4si32>(ResultSz)
                   << " llc=" << vectAsString<v4si32>(ResultLlc) << "\n";
       }
     }
   }
 }

 int main(int argc, char *argv[]) {
   size_t TotalTests = 0;
   size_t Passes = 0;
   size_t Failures = 0;

   initializeValues();

   testsScalar(TotalTests, Passes, Failures);
   testsVector(TotalTests, Passes, Failures);

   std::cout << "TotalTests=" << TotalTests << " Passes=" << Passes
             << " Failures=" << Failures << "\n";
   return Failures;
 }
	//===- subzero/crosstest/test_fcmp_main.cpp - Driver for tests ------------===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Driver for cross testing the fcmp bitcode instruction
	//
	//===----------------------------------------------------------------------===//

	/* crosstest.py --test=test_fcmp.pnacl.ll --driver=test_fcmp_main.cpp \
	--prefix=Subzero_ --output=test_fcmp */

	#include <cassert>
	#include <cfloat>
	#include <cmath>
	#include <cstring>
	#include <iostream>

	#include "vectors.h"
	#include "test_arith.def"
	#include "test_fcmp.def"

	#define X(cmp) \
	extern "C" bool fcmp##cmp##Float(float a, float b); \
	extern "C" bool fcmp##cmp##Double(double a, double b); \
	extern "C" int fcmpSelect##cmp##Float(float a, float b, int c, int d); \
	extern "C" int fcmpSelect##cmp##Double(double a, double b, int c, int d); \
	extern "C" v4si32 fcmp##cmp##Vector(v4f32 a, v4f32 b); \
	extern "C" bool Subzero_fcmp##cmp##Float(float a, float b); \
	extern "C" bool Subzero_fcmp##cmp##Double(double a, double b); \
	extern "C" int Subzero_fcmpSelect##cmp##Float(float a, float b, int c, \
	int d); \
	extern "C" int Subzero_fcmpSelect##cmp##Double(double a, double b, int c, \
	int d); \
	extern "C" v4si32 Subzero_fcmp##cmp##Vector(v4f32 a, v4f32 b);
	FCMP_TABLE;
	#undef X

	volatile double *Values;
	size_t NumValues;

	void initializeValues() {
	static const double NegInf = -1.0 / 0.0;
	static const double Zero = 0.0;
	static const double PosInf = 1.0 / 0.0;
	static const double Nan = 0.0 / 0.0;
	static const double NegNan = -0.0 / 0.0;
	assert(std::fpclassify(NegInf) == FP_INFINITE);
	assert(std::fpclassify(PosInf) == FP_INFINITE);
	assert(std::fpclassify(Nan) == FP_NAN);
	assert(std::fpclassify(NegNan) == FP_NAN);
	assert(NegInf < Zero);
	assert(NegInf < PosInf);
	assert(Zero < PosInf);
	static volatile double InitValues[] =
	FP_VALUE_ARRAY(NegInf, PosInf, NegNan, Nan);
	NumValues = sizeof(InitValues) / sizeof(*InitValues);
	Values = InitValues;
	}

	void testsScalar(size_t &TotalTests, size_t &Passes, size_t &Failures) {
	typedef bool (*FuncTypeFloat)(float, float);
	typedef bool (*FuncTypeDouble)(double, double);
	typedef int (*FuncTypeFloatSelect)(float, float, int, int);
	typedef int (*FuncTypeDoubleSelect)(double, double, int, int);
	static struct {
	const char *Name;
	FuncTypeFloat FuncFloatSz;
	FuncTypeFloat FuncFloatLlc;
	FuncTypeDouble FuncDoubleSz;
	FuncTypeDouble FuncDoubleLlc;
	FuncTypeFloatSelect FuncFloatSelectSz;
	FuncTypeFloatSelect FuncFloatSelectLlc;
	FuncTypeDoubleSelect FuncDoubleSelectSz;
	FuncTypeDoubleSelect FuncDoubleSelectLlc;
	} Funcs[] = {
	#define X(cmp) \
	{ \
	"fcmp" STR(cmp), Subzero_fcmp##cmp##Float, fcmp##cmp##Float, \
	Subzero_fcmp##cmp##Double, fcmp##cmp##Double, \
	Subzero_fcmpSelect##cmp##Float, fcmpSelect##cmp##Float, \
	Subzero_fcmpSelect##cmp##Double, fcmpSelect##cmp##Double \
	} \
	,
	FCMP_TABLE
	#undef X
	};
	const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);

	bool ResultSz, ResultLlc;

	assert(Values && NumValues);

	for (size_t f = 0; f < NumFuncs; ++f) {
	for (size_t i = 0; i < NumValues; ++i) {
	for (size_t j = 0; j < NumValues; ++j) {
	++TotalTests;
	float Value1Float = Values[i];
	float Value2Float = Values[j];
	ResultSz = Funcs[f].FuncFloatSz(Value1Float, Value2Float);
	ResultLlc = Funcs[f].FuncFloatLlc(Value1Float, Value2Float);
	if (ResultSz == ResultLlc) {
	++Passes;
	} else {
	++Failures;
	std::cout << Funcs[f].Name << "Float(" << Value1Float << ", "
	<< Value2Float << "): sz=" << ResultSz
	<< " llc=" << ResultLlc << "\n";
	}
	++TotalTests;
	double Value1Double = Values[i];
	double Value2Double = Values[j];
	ResultSz = Funcs[f].FuncDoubleSz(Value1Double, Value2Double);
	ResultLlc = Funcs[f].FuncDoubleLlc(Value1Double, Value2Double);
	if (ResultSz == ResultLlc) {
	++Passes;
	} else {
	++Failures;
	std::cout << Funcs[f].Name << "Double(" << Value1Double << ", "
	<< Value2Double << "): sz=" << ResultSz
	<< " llc=" << ResultLlc << "\n";
	}
	++TotalTests;
	float Value1SelectFloat = Values[i];
	float Value2SelectFloat = Values[j];
	ResultSz = Funcs[f].FuncFloatSelectSz(Value1Float, Value2Float, 1, 2);
	ResultLlc = Funcs[f].FuncFloatSelectLlc(Value1Float, Value2Float, 1, 2);
	if (ResultSz == ResultLlc) {
	++Passes;
	} else {
	++Failures;
	std::cout << Funcs[f].Name << "SelectFloat(" << Value1Float << ", "
	<< Value2Float << "): sz=" << ResultSz
	<< " llc=" << ResultLlc << "\n";
	}
	++TotalTests;
	double Value1SelectDouble = Values[i];
	double Value2SelectDouble = Values[j];
	ResultSz =
	Funcs[f].FuncDoubleSelectSz(Value1Double, Value2Double, 1, 2);
	ResultLlc =
	Funcs[f].FuncDoubleSelectLlc(Value1Double, Value2Double, 1, 2);
	if (ResultSz == ResultLlc) {
	++Passes;
	} else {
	++Failures;
	std::cout << Funcs[f].Name << "SelectDouble(" << Value1Double << ", "
	<< Value2Double << "): sz=" << ResultSz
	<< " llc=" << ResultLlc << "\n";
	}
	}
	}
	}
	}

	void testsVector(size_t &TotalTests, size_t &Passes, size_t &Failures) {
	typedef v4si32 (*FuncTypeVector)(v4f32, v4f32);
	static struct {
	const char *Name;
	FuncTypeVector FuncVectorSz;
	FuncTypeVector FuncVectorLlc;
	} Funcs[] = {
	#define X(cmp) \
	{ "fcmp" STR(cmp), Subzero_fcmp##cmp##Vector, fcmp##cmp##Vector } \
	,
	FCMP_TABLE
	#undef X
	};
	const static size_t NumFuncs = sizeof(Funcs) / sizeof(*Funcs);
	const static size_t NumElementsInType = 4;
	const static size_t MaxTestsPerFunc = 100000;

	assert(Values && NumValues);

	for (size_t f = 0; f < NumFuncs; ++f) {
	PRNG Index;
	for (size_t i = 0; i < MaxTestsPerFunc; ++i) {
	v4f32 Value1, Value2;
	for (size_t j = 0; j < NumElementsInType; ++j) {
	Value1[j] = Values[Index() % NumValues];
	Value2[j] = Values[Index() % NumValues];
	}
	++TotalTests;
	v4si32 ResultSz, ResultLlc;
	ResultSz = Funcs[f].FuncVectorSz(Value1, Value2);
	ResultLlc = Funcs[f].FuncVectorLlc(Value1, Value2);
	if (!memcmp(&ResultSz, &ResultLlc, sizeof(ResultSz))) {
	++Passes;
	} else {
	++Failures;
	std::cout << Funcs[f].Name << "Vector(" << vectAsString<v4f32>(Value1)
	<< ", " << vectAsString<v4f32>(Value2)
	<< "): sz=" << vectAsString<v4si32>(ResultSz)
	<< " llc=" << vectAsString<v4si32>(ResultLlc) << "\n";
	}
	}
	}
	}

	int main(int argc, char *argv[]) {
	size_t TotalTests = 0;
	size_t Passes = 0;
	size_t Failures = 0;

	initializeValues();

	testsScalar(TotalTests, Passes, Failures);
	testsVector(TotalTests, Passes, Failures);

	std::cout << "TotalTests=" << TotalTests << " Passes=" << Passes
	<< " Failures=" << Failures << "\n";
	return Failures;
	}