//===- GmpConv.cpp - Recreate LLVM IR from the Scop. ---------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Functions for converting between gmp objects and llvm::APInt. // //===----------------------------------------------------------------------===// #include "polly/Support/GICHelper.h" #include "llvm/ADT/APInt.h" #include "isl/val.h" using namespace llvm; __isl_give isl_val *polly::isl_valFromAPInt(isl_ctx *Ctx, const APInt Int, bool IsSigned) { APInt Abs; isl_val *v; // As isl is interpreting the input always as unsigned value, we need some // additional pre and post processing to import signed values. The approach // we take is to first obtain the absolute value of Int and then negate the // value after it has been imported to isl. // // It should be noted that the smallest integer value represented in two's // complement with a certain amount of bits does not have a corresponding // positive representation in two's complement representation with the same // number of bits. E.g. 110 (-2) does not have a corresponding value for (2). // To ensure that there is always a corresponding value available we first // sign-extend the input by one bit and only then take the absolute value. if (IsSigned) Abs = Int.sext(Int.getBitWidth() + 1).abs(); else Abs = Int; const uint64_t *Data = Abs.getRawData(); unsigned Words = Abs.getNumWords(); v = isl_val_int_from_chunks(Ctx, Words, sizeof(uint64_t), Data); if (IsSigned && Int.isNegative()) v = isl_val_neg(v); return v; } APInt polly::APIntFromVal(__isl_take isl_val *Val) { uint64_t *Data; int NumChunks; const static int ChunkSize = sizeof(uint64_t); assert(isl_val_is_int(Val) && "Only integers can be converted to APInt"); NumChunks = isl_val_n_abs_num_chunks(Val, ChunkSize); Data = (uint64_t *)malloc(NumChunks * ChunkSize); isl_val_get_abs_num_chunks(Val, ChunkSize, Data); int NumBits = CHAR_BIT * ChunkSize * NumChunks; APInt A(NumBits, NumChunks, Data); // As isl provides only an interface to obtain data that describes the // absolute value of an isl_val, A at this point always contains a positive // number. In case Val was originally negative, we expand the size of A by // one and negate the value (in two's complement representation). As a result, // the new value in A corresponds now with Val. if (isl_val_is_neg(Val)) { A = A.zext(A.getBitWidth() + 1); A = -A; } // isl may represent small numbers with more than the minimal number of bits. // We truncate the APInt to the minimal number of bits needed to represent the // signed value it contains, to ensure that the bitwidth is always minimal. if (A.getMinSignedBits() < A.getBitWidth()) A = A.trunc(A.getMinSignedBits()); free(Data); isl_val_free(Val); return A; } template static inline std::string stringFromIslObjInternal(__isl_keep ISLTy *isl_obj, ISL_CTX_GETTER ctx_getter_fn, ISL_PRINTER printer_fn, std::string DefaultValue) { if (!isl_obj) return DefaultValue; isl_ctx *ctx = ctx_getter_fn(isl_obj); isl_printer *p = isl_printer_to_str(ctx); p = printer_fn(p, isl_obj); char *char_str = isl_printer_get_str(p); std::string string; if (char_str) string = char_str; else string = DefaultValue; free(char_str); isl_printer_free(p); return string; } #define ISL_C_OBJECT_TO_STRING(name) \ std::string polly::stringFromIslObj(__isl_keep isl_##name *Obj, \ std::string DefaultValue) { \ return stringFromIslObjInternal(Obj, isl_##name##_get_ctx, \ isl_printer_print_##name, DefaultValue); \ } ISL_C_OBJECT_TO_STRING(aff) ISL_C_OBJECT_TO_STRING(ast_expr) ISL_C_OBJECT_TO_STRING(ast_node) ISL_C_OBJECT_TO_STRING(basic_map) ISL_C_OBJECT_TO_STRING(basic_set) ISL_C_OBJECT_TO_STRING(map) ISL_C_OBJECT_TO_STRING(set) ISL_C_OBJECT_TO_STRING(id) ISL_C_OBJECT_TO_STRING(multi_aff) ISL_C_OBJECT_TO_STRING(multi_pw_aff) ISL_C_OBJECT_TO_STRING(multi_union_pw_aff) ISL_C_OBJECT_TO_STRING(point) ISL_C_OBJECT_TO_STRING(pw_aff) ISL_C_OBJECT_TO_STRING(pw_multi_aff) ISL_C_OBJECT_TO_STRING(schedule) ISL_C_OBJECT_TO_STRING(schedule_node) ISL_C_OBJECT_TO_STRING(space) ISL_C_OBJECT_TO_STRING(union_access_info) ISL_C_OBJECT_TO_STRING(union_flow) ISL_C_OBJECT_TO_STRING(union_set) ISL_C_OBJECT_TO_STRING(union_map) ISL_C_OBJECT_TO_STRING(union_pw_aff) ISL_C_OBJECT_TO_STRING(union_pw_multi_aff) static void replace(std::string &str, const std::string &find, const std::string &replace) { size_t pos = 0; while ((pos = str.find(find, pos)) != std::string::npos) { str.replace(pos, find.length(), replace); pos += replace.length(); } } static void makeIslCompatible(std::string &str) { replace(str, ".", "_"); replace(str, "\"", "_"); replace(str, " ", "__"); replace(str, "=>", "TO"); replace(str, "+", "_"); } std::string polly::getIslCompatibleName(const std::string &Prefix, const std::string &Middle, const std::string &Suffix) { std::string S = Prefix + Middle + Suffix; makeIslCompatible(S); return S; } std::string polly::getIslCompatibleName(const std::string &Prefix, const std::string &Name, long Number, const std::string &Suffix, bool UseInstructionNames) { std::string S = Prefix; if (UseInstructionNames) S += std::string("_") + Name; else S += std::to_string(Number); S += Suffix; makeIslCompatible(S); return S; } std::string polly::getIslCompatibleName(const std::string &Prefix, const Value *Val, long Number, const std::string &Suffix, bool UseInstructionNames) { std::string ValStr; if (UseInstructionNames && Val->hasName()) ValStr = std::string("_") + std::string(Val->getName()); else ValStr = std::to_string(Number); return getIslCompatibleName(Prefix, ValStr, Suffix); } #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) #define ISL_DUMP_OBJECT_IMPL(NAME) \ void polly::dumpIslObj(const isl::NAME &Obj) { \ isl_##NAME##_dump(Obj.get()); \ } \ void polly::dumpIslObj(isl_##NAME *Obj) { isl_##NAME##_dump(Obj); } ISL_DUMP_OBJECT_IMPL(aff) ISL_DUMP_OBJECT_IMPL(aff_list) ISL_DUMP_OBJECT_IMPL(ast_expr) ISL_DUMP_OBJECT_IMPL(ast_node) ISL_DUMP_OBJECT_IMPL(ast_node_list) ISL_DUMP_OBJECT_IMPL(basic_map) ISL_DUMP_OBJECT_IMPL(basic_map_list) ISL_DUMP_OBJECT_IMPL(basic_set) ISL_DUMP_OBJECT_IMPL(basic_set_list) ISL_DUMP_OBJECT_IMPL(constraint) ISL_DUMP_OBJECT_IMPL(id) ISL_DUMP_OBJECT_IMPL(id_list) ISL_DUMP_OBJECT_IMPL(id_to_ast_expr) ISL_DUMP_OBJECT_IMPL(local_space) ISL_DUMP_OBJECT_IMPL(map) ISL_DUMP_OBJECT_IMPL(map_list) ISL_DUMP_OBJECT_IMPL(multi_aff) ISL_DUMP_OBJECT_IMPL(multi_pw_aff) ISL_DUMP_OBJECT_IMPL(multi_union_pw_aff) ISL_DUMP_OBJECT_IMPL(multi_val) ISL_DUMP_OBJECT_IMPL(point) ISL_DUMP_OBJECT_IMPL(pw_aff) ISL_DUMP_OBJECT_IMPL(pw_aff_list) ISL_DUMP_OBJECT_IMPL(pw_multi_aff) ISL_DUMP_OBJECT_IMPL(schedule) ISL_DUMP_OBJECT_IMPL(schedule_constraints) ISL_DUMP_OBJECT_IMPL(schedule_node) ISL_DUMP_OBJECT_IMPL(set) ISL_DUMP_OBJECT_IMPL(set_list) ISL_DUMP_OBJECT_IMPL(space) ISL_DUMP_OBJECT_IMPL(union_map) ISL_DUMP_OBJECT_IMPL(union_pw_aff) ISL_DUMP_OBJECT_IMPL(union_pw_aff_list) ISL_DUMP_OBJECT_IMPL(union_pw_multi_aff) ISL_DUMP_OBJECT_IMPL(union_set) ISL_DUMP_OBJECT_IMPL(union_set_list) ISL_DUMP_OBJECT_IMPL(val) ISL_DUMP_OBJECT_IMPL(val_list) void polly::dumpIslObj(__isl_keep isl_schedule_node *node, raw_ostream &OS) { if (!node) return; isl_ctx *ctx = isl_schedule_node_get_ctx(node); isl_printer *p = isl_printer_to_str(ctx); p = isl_printer_set_yaml_style(p, ISL_YAML_STYLE_BLOCK); p = isl_printer_print_schedule_node(p, node); char *char_str = isl_printer_get_str(p); OS << char_str; free(char_str); isl_printer_free(p); } void polly::dumpIslObj(const isl::schedule_node &Node, raw_ostream &OS) { dumpIslObj(Node.get(), OS); } #endif