// -*- 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 "svdpi.h" #include #include #include // These require the above. Comment prevents clang-format moving them #include "TestCheck.h" //====================================================================== // clang-format off #if defined(VERILATOR) # include "Vt_dpi_open_elem__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. void dpii_bit_elem_p0_u1(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q); void dpii_bit_elem_p0_u2(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q); void dpii_bit_elem_p0_u3(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q); void dpii_logic_elem_p0_u1(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q); void dpii_logic_elem_p0_u2(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q); void dpii_logic_elem_p0_u3(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q); extern int dpii_failure(); } #endif int errors = 0; int dpii_failure() { return errors; } void dpii_unused(const svOpenArrayHandle u) {} //====================================================================== static void _dpii_bit_elem_ux(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { int dim = svDimensions(i); #ifndef NC // NC always returns zero and warns TEST_CHECK_HEX_EQ(dim, u); #endif for (int a = svLow(i, 1); a <= svHigh(i, 1); ++a) { fflush(stdout); if (dim == 1) { svBit v = svGetBitArrElem(i, a); svBit v2 = svGetBitArrElem1(i, a); TEST_CHECK_HEX_EQ(v, v2); svPutBitArrElem(o, v ? 0 : 1, a); svPutBitArrElem1(q, v ? 0 : 1, a); } else { for (int b = svLow(i, 2); b <= svHigh(i, 2); ++b) { if (dim == 2) { svBit v = svGetBitArrElem(i, a, b); svBit v2 = svGetBitArrElem2(i, a, b); TEST_CHECK_HEX_EQ(v, v2); svPutBitArrElem(o, v ? 0 : 1, a, b); svPutBitArrElem2(q, v ? 0 : 1, a, b); } else { for (int c = svLow(i, 3); c <= svHigh(i, 3); ++c) { if (dim == 3) { svBit v = svGetBitArrElem(i, a, b, c); svBit v2 = svGetBitArrElem3(i, a, b, c); TEST_CHECK_HEX_EQ(v, v2); svPutBitArrElem(o, v ? 0 : 1, a, b, c); svPutBitArrElem3(q, v ? 0 : 1, a, b, c); } } } } } } fflush(stdout); } void dpii_bit_elem_p0_u1(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { _dpii_bit_elem_ux(p, u, i, o, q); } void dpii_bit_elem_p0_u2(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { _dpii_bit_elem_ux(p, u, i, o, q); } void dpii_bit_elem_p0_u3(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { _dpii_bit_elem_ux(p, u, i, o, q); } //====================================================================== static void _dpii_logic_elem_ux(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { int dim = svDimensions(i); #ifndef NC // NC always returns zero and warns TEST_CHECK_HEX_EQ(dim, u); #endif int sizeInputOfArray = svSizeOfArray(i); // svSizeOfArray(i) undeterministic as not in C representation if (sizeInputOfArray) {} for (int a = svLow(i, 1); a <= svHigh(i, 1); ++a) { if (dim == 1) { svLogic v = svGetLogicArrElem(i, a); svLogic v2 = svGetLogicArrElem1(i, a); TEST_CHECK_HEX_EQ(v, v2); svPutLogicArrElem(o, v ? 0 : 1, a); svPutLogicArrElem1(q, v ? 0 : 1, a); } else { for (int b = svLow(i, 2); b <= svHigh(i, 2); ++b) { if (dim == 2) { svLogic v = svGetLogicArrElem(i, a, b); svLogic v2 = svGetLogicArrElem2(i, a, b); TEST_CHECK_HEX_EQ(v, v2); svPutLogicArrElem(o, v ? 0 : 1, a, b); svPutLogicArrElem2(q, v ? 0 : 1, a, b); } else { for (int c = svLow(i, 3); c <= svHigh(i, 3); ++c) { if (dim == 3) { svLogic v = svGetLogicArrElem(i, a, b, c); svLogic v2 = svGetLogicArrElem3(i, a, b, c); TEST_CHECK_HEX_EQ(v, v2); svPutLogicArrElem(o, v ? 0 : 1, a, b, c); svPutLogicArrElem3(q, v ? 0 : 1, a, b, c); } } } } } } fflush(stdout); } void dpii_logic_elem_p0_u1(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { _dpii_logic_elem_ux(p, u, i, o, q); } void dpii_logic_elem_p0_u2(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { _dpii_logic_elem_ux(p, u, i, o, q); } void dpii_logic_elem_p0_u3(int p, int u, const svOpenArrayHandle i, const svOpenArrayHandle o, const svOpenArrayHandle q) { _dpii_logic_elem_ux(p, u, i, o, q); }