//===- subzero/crosstest/test_arith.cpp - Arithmetic operator tests -------===// // // The Subzero Code Generator // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Implementation for crosstesting arithmetic operations. // //===----------------------------------------------------------------------===// // This aims to test all the arithmetic bitcode instructions across // all PNaCl primitive data types. #include #include "test_arith.h" #include "xdefs.h" #if 0 // The following is commented out, and instead, a python script auto-generates a // .ll file with the equivalent functionality. #define X(inst, op, isdiv, isshift) \ bool test##inst(bool a, bool b) { return a op b; } \ uint8_t test##inst(uint8_t a, uint8_t b) { return a op b; } \ uint16_t test##inst(uint16_t a, uint16_t b) { return a op b; } \ uint32_t test##inst(uint32_t a, uint32_t b) { return a op b; } \ uint64 test##inst(uint64 a, uint64 b) { return a op b; } \ v4ui32 test##inst(v4ui32 a, v4ui32 b) { return a op b; } \ v8ui16 test##inst(v8ui16 a, v8ui16 b) { return a op b; } \ v16ui8 test##inst(v16ui8 a, v16ui8 b) { return a op b; } UINTOP_TABLE #undef X #define X(inst, op, isdiv, isshift) \ bool test##inst(bool a, bool b) { return a op b; } \ myint8_t test##inst(myint8_t a, myint8_t b) { return a op b; } \ int16_t test##inst(int16_t a, int16_t b) { return a op b; } \ int32_t test##inst(int32_t a, int32_t b) { return a op b; } \ int64 test##inst(int64 a, int64 b) { return a op b; } \ v4si32 test##inst(v4si32 a, v4si32 b) { return a op b; } \ v8si16 test##inst(v8si16 a, v8si16 b) { return a op b; } \ v16si8 test##inst(v16si8 a, v16si8 b) { return a op b; } SINTOP_TABLE #undef X #define X(inst, op, func) \ float test##inst(float a, float b) { return func(a op b); } \ double test##inst(double a, double b) { return func(a op b); } \ v4f32 test##inst(v4f32 a, v4f32 b) { return func(a op b); } FPOP_TABLE #undef X #endif // 0 #define X(mult_by) \ bool testMultiplyBy##mult_by(bool a, bool /*unused*/) { \ return a * (mult_by); \ } \ bool testMultiplyByNeg##mult_by(bool a, bool /*unused*/) { \ return a * (-(mult_by)); \ } \ uint8_t testMultiplyBy##mult_by(uint8_t a, uint8_t /*unused*/) { \ return a * (mult_by); \ } \ uint8_t testMultiplyByNeg##mult_by(uint8_t a, uint8_t /*unused*/) { \ return a * (-(mult_by)); \ } \ uint16_t testMultiplyBy##mult_by(uint16_t a, uint16_t /*unused*/) { \ return a * (mult_by); \ } \ uint16_t testMultiplyByNeg##mult_by(uint16_t a, uint16_t /*unused*/) { \ return a * (-(mult_by)); \ } \ uint32_t testMultiplyBy##mult_by(uint32_t a, uint32_t /*unused*/) { \ return a * (mult_by); \ } \ uint32_t testMultiplyByNeg##mult_by(uint32_t a, uint32_t /*unused*/) { \ return a * (-(mult_by)); \ } \ uint64_t testMultiplyBy##mult_by(uint64_t a, uint64_t /*unused*/) { \ return a * (mult_by); \ } \ uint64_t testMultiplyByNeg##mult_by(uint64_t a, uint64_t /*unused*/) { \ return a * (-(mult_by)); \ } MULIMM_TABLE #undef X