// -*- mode: C++; c-file-style: "cc-mode" -*- //************************************************************************* // // Copyright 2009-2017 by Wilson Snyder. This program is free software; you can // redistribute it and/or modify it under the terms of either the GNU // Lesser General Public License Version 3 or the Perl Artistic License // Version 2.0. // SPDX-License-Identifier: LGPL-3.0-only OR Artistic-2.0 // //************************************************************************* #include #include #include #include "svdpi.h" //====================================================================== // clang-format off #if defined(VERILATOR) # include "Vt_dpi_open__Dpi.h" #elif defined(VCS) # include "../vc_hdrs.h" #elif defined(NC) # define NEED_EXTERNS // #elif defined(MS) // # define NEED_EXTERNS #else # error "Unknown simulator for DPI test" #endif // clang-format on #ifdef NEED_EXTERNS extern "C" { // If get ncsim: *F,NOFDPI: Function {foo} not found in default libdpi. // Then probably forgot to list a function here. extern void dpii_unused(const svOpenArrayHandle u); extern void dpii_open_p0_u1(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_p1_u0(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_p1_u1(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_p1_u2(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_p1_u3(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_pw_u0(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_pw_u1(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_pw_u2(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_pw_u3(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_bit(const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_byte(const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_int(const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_integer(const svOpenArrayHandle i, const svOpenArrayHandle o); extern void dpii_open_logic(const svOpenArrayHandle i, const svOpenArrayHandle o); extern int dpii_failure(); } #endif //====================================================================== // Untested: // void *svGetArrElemPtr(const svOpenArrayHandle, int indx1, ...); // void svPutBitArrElemVecVal(const svOpenArrayHandle d, const svBitVecVal* s, int indx1, ...); // void svPutBitArrElem1VecVal(const svOpenArrayHandle d, const svBitVecVal* s, int indx1); // void svPutLogicArrElemVecVal(const svOpenArrayHandle d, const svLogicVecVal* s, int indx1, ...); // void svPutLogicArrElem1VecVal(const svOpenArrayHandle d, const svLogicVecVal* s, int indx1); // void svGetBitArrElemVecVal(svBitVecVal* d, const svOpenArrayHandle s, int indx1, ...); // void svGetBitArrElem1VecVal(svBitVecVal* d, const svOpenArrayHandle s, int indx1); // void svGetLogicArrElemVecVal(svLogicVecVal* d, const svOpenArrayHandle s, int indx1, ...); // void svGetLogicArrElem1VecVal(svLogicVecVal* d, const svOpenArrayHandle s, int indx1); // svBit svGetBitArrElem(const svOpenArrayHandle s, int indx1, ...); // svBit svGetBitArrElem1(const svOpenArrayHandle s, int indx1); // svLogic svGetLogicArrElem(const svOpenArrayHandle s, int indx1, ...); // svLogic svGetLogicArrElem1(const svOpenArrayHandle s, int indx1); // void svPutBitArrElem(const svOpenArrayHandle d, svBit value, int indx1, ...); // void svPutBitArrElem1(const svOpenArrayHandle d, svBit value, int indx1); // void svPutLogicArrElem(const svOpenArrayHandle d, svLogic value, int indx1, ...); // void svPutLogicArrElem1(const svOpenArrayHandle d, svLogic value, int indx1); //====================================================================== int failure = 0; int dpii_failure() { return failure; } // clang-format off #ifdef _WIN32 # define T_PRI64 "I64" #else // Linux or compliant Unix flavors # define T_PRI64 "ll" #endif // clang-format on #define CHECK_RESULT_HEX(got, exp) \ do { \ if ((got) != (exp)) { \ std::cout << std::dec << "%Error: " << __FILE__ << ":" << __LINE__ << std::hex \ << ": GOT=" << (got) << " EXP=" << (exp) << std::endl; \ failure = __LINE__; \ } \ } while (0) #define CHECK_RESULT_HEX_NE(got, exp) \ do { \ if ((got) == (exp)) { \ std::cout << std::dec << "%Error: " << __FILE__ << ":" << __LINE__ << std::hex \ << ": GOT=" << (got) << " EXP!=" << (exp) << std::endl; \ failure = __LINE__; \ } \ } while (0) void dpii_unused(const svOpenArrayHandle u) {} void _dpii_all(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { #ifdef TEST_VERBOSE printf("-:%s:%d: For case c=%d p=%d u=%d data=%p\n", // __FILE__, __LINE__, c, p, u, svGetArrayPtr(i)); #endif (void)svGetArrayPtr(i); #ifndef NC // NC always returns zero and warns (void)svSizeOfArray(i); #endif #ifndef VCS // VCS does not support dimension 0 query if (p) { int d = 0; if (c == 0 || c == 1) { CHECK_RESULT_HEX(svLeft(i, d), 1); CHECK_RESULT_HEX(svRight(i, d), -1); CHECK_RESULT_HEX(svLow(i, d), -1); CHECK_RESULT_HEX(svHigh(i, d), 1); // CHECK_RESULT_HEX(svIncrement(i, d), 0); CHECK_RESULT_HEX(svSize(i, d), 3); } else if (c == 2) { CHECK_RESULT_HEX(svLeft(i, d), 95); CHECK_RESULT_HEX(svRight(i, d), 1); CHECK_RESULT_HEX(svLow(i, d), 1); CHECK_RESULT_HEX(svHigh(i, d), 95); // CHECK_RESULT_HEX(svIncrement(i, d), 0); CHECK_RESULT_HEX(svSize(i, d), 95); } else { CHECK_RESULT_HEX(0, 1); } } #endif if (u >= 1) { int d = 1; if (c == 0) { CHECK_RESULT_HEX(svLeft(i, d), -2); CHECK_RESULT_HEX(svRight(i, d), 2); CHECK_RESULT_HEX(svLow(i, d), -2); CHECK_RESULT_HEX(svHigh(i, d), 2); // CHECK_RESULT_HEX(svIncrement(i, d), 0); CHECK_RESULT_HEX(svSize(i, d), 5); } else if (c == 1) { CHECK_RESULT_HEX(svLeft(i, d), 2); CHECK_RESULT_HEX(svRight(i, d), -2); CHECK_RESULT_HEX(svLow(i, d), -2); CHECK_RESULT_HEX(svHigh(i, d), 2); // CHECK_RESULT_HEX(svIncrement(i, d), 0); CHECK_RESULT_HEX(svSize(i, d), 5); } } if (u >= 2) { int d = 2; if (c == 0) { CHECK_RESULT_HEX(svLeft(i, d), -3); CHECK_RESULT_HEX(svRight(i, d), 3); CHECK_RESULT_HEX(svLow(i, d), -3); CHECK_RESULT_HEX(svHigh(i, d), 3); // CHECK_RESULT_HEX(svIncrement(i, d), 0); CHECK_RESULT_HEX(svSize(i, d), 7); } else if (c == 1) { CHECK_RESULT_HEX(svLeft(i, d), 3); CHECK_RESULT_HEX(svRight(i, d), -3); CHECK_RESULT_HEX(svLow(i, d), -3); CHECK_RESULT_HEX(svHigh(i, d), 3); // CHECK_RESULT_HEX(svIncrement(i, d), 0); CHECK_RESULT_HEX(svSize(i, d), 7); } } if (c == 2 && p == 1 && u == 3) { for (int a = svLow(i, 1); a <= svHigh(i, 1); ++a) { for (int b = svLow(i, 2); b <= svHigh(i, 2); ++b) { for (int c = svLow(i, 3); c <= svHigh(i, 3); ++c) { // printf("Copy abc %d,%d,%d\n", a,b,c); svLogicVecVal vec[3]; svGetLogicArrElemVecVal(vec, i, a, b, c); #ifdef NC // printf(" %08lx_%08lx_%08lx\n", vec[2].a, vec[1].a, vec[0].a); vec[0].a = (~vec[0].a); vec[1].a = (~vec[1].a); vec[2].a = (~vec[2].a) & 0x7fffffff; // vec[0].b = vec[0].b; // vec[1].b = vec[1].b; // vec[2].b = vec[2].b; #else vec[0].aval = (~vec[0].aval); vec[1].aval = (~vec[1].aval); vec[2].aval = (~vec[2].aval) & 0x7fffffff; // vec[0].bval = vec[0].bval; // vec[1].bval = vec[1].bval; // vec[2].bval = vec[2].bval; #endif svPutLogicArrElemVecVal(o, vec, a, b, c); } } } } } void dpii_open_p0_u1(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_p1_u0(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_p1_u1(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_p1_u2(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_p1_u3(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_pw_u0(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_pw_u1(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_pw_u2(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_pw_u3(int c, int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o) { _dpii_all(c, p, u, i, o); } void dpii_open_bit(const svOpenArrayHandle i, const svOpenArrayHandle o) {} void dpii_open_byte(const svOpenArrayHandle i, const svOpenArrayHandle o) { intptr_t arrPtr = (intptr_t)svGetArrayPtr(i); CHECK_RESULT_HEX_NE(arrPtr, 0); // All the arrays should actually exist #ifndef NC // NC always returns zero and warns int sizeInputOfArray = svSizeOfArray(i); CHECK_RESULT_HEX_NE(sizeInputOfArray, 0); // None of the test cases have zero size CHECK_RESULT_HEX_NE(svDimensions(i), 0); // All the test cases are unpacked arrays #endif } void dpii_open_int(const svOpenArrayHandle i, const svOpenArrayHandle o) { intptr_t arrPtr = (intptr_t)svGetArrayPtr(i); CHECK_RESULT_HEX_NE(arrPtr, 0); // All the arrays should actually exist #ifndef NC // NC always returns zero and warns int sizeInputOfArray = svSizeOfArray(i); CHECK_RESULT_HEX_NE(sizeInputOfArray, 0); // None of the test cases have zero size CHECK_RESULT_HEX_NE(svDimensions(i), 0); // All the test cases are unpacked arrays #endif } void dpii_open_integer(const svOpenArrayHandle i, const svOpenArrayHandle o) {} void dpii_open_logic(const svOpenArrayHandle i, const svOpenArrayHandle o) {} int dpii_failed() { return failure; }