#include #include #include #include #include #include #include #include #include #include "alloc.h" #include "analyzer.h" #include "common.h" #include "errors.h" #include "strview.h" #define lengthof(xs) (sizeof(xs) / sizeof(*(xs))) /* Cheers to Lernö for this */ #define LLVM_TARGET_INIT(x) \ do { \ LLVMInitialize##x##AsmParser(); \ LLVMInitialize##x##AsmPrinter(); \ LLVMInitialize##x##TargetInfo(); \ LLVMInitialize##x##Target(); \ LLVMInitialize##x##Disassembler(); \ LLVMInitialize##x##TargetMC(); \ } while (false) /* A context structure we can pass to all the codegen functions just so they have easy access to everything */ struct cgctx { arena_t *a; scratch_t *s; mpq_t *folds; scope_t *scps; type_t *types; ast_t ast; aux_t aux; lexemes_t toks; LLVMBuilderRef bob; LLVMContextRef ctx; LLVMModuleRef mod; LLVMTargetDataRef td; LLVMValueRef func; idx_t scpi; strview_t namespace; }; static LLVMTypeRef type2llvm(struct cgctx, type_t); static void codegenast(struct cgctx); void codegen(const char *file, mpq_t *folds, scope_t *scps, type_t *types, ast_t ast, aux_t aux, lexemes_t toks) { LLVM_TARGET_INIT(X86); char *error = NULL; char *triple = LLVMGetDefaultTargetTriple(); LLVMTargetRef lltarget; LLVMContextRef llctx = LLVMContextCreate(); LLVMModuleRef llmod = LLVMModuleCreateWithNameInContext("oryx", llctx); if (LLVMGetTargetFromTriple(triple, &lltarget, &error) != 0) err("codegen: %s", error); LLVMTargetMachineRef llmach = LLVMCreateTargetMachine( lltarget, triple, "", "", LLVMCodeGenLevelNone, LLVMRelocDefault, LLVMCodeModelDefault); struct cgctx ctx = { .a = &(arena_t){0}, .s = &(scratch_t){0}, .folds = folds, .scps = scps, .types = types, .ast = ast, .aux = aux, .toks = toks, .ctx = llctx, .mod = llmod, .bob = LLVMCreateBuilderInContext(llctx), .td = LLVMCreateTargetDataLayout(llmach), }; LLVMSetTarget(ctx.mod, triple); LLVMSetModuleDataLayout(ctx.mod, ctx.td); LLVMSetSourceFileName(ctx.mod, file, strlen(file)); LLVMDisposeMessage(triple); codegenast(ctx); error = NULL; if (LLVMVerifyModule(ctx.mod, LLVMReturnStatusAction, &error) == 1) err("codegen: %s", error); LLVMDumpModule(ctx.mod); #if DEBUG tmpfree(ctx.s); arena_free(ctx.a); LLVMDisposeBuilder(ctx.bob); LLVMDisposeMessage(error); LLVMDisposeModule(ctx.mod); LLVMDisposeTargetData(ctx.td); LLVMDisposeTargetMachine(llmach); LLVMContextDispose(ctx.ctx); #endif } static idx_t codegendecl(struct cgctx ctx, idx_t); idx_t codegentypedexpr(struct cgctx ctx, idx_t i, type_t type, LLVMValueRef *outv) { /* If true, implies numeric constant */ if (MPQ_IS_INIT(ctx.folds[i]) && !type.isfloat) { mpz_ptr num, den; num = mpq_numref(ctx.folds[i]); den = mpq_denref(ctx.folds[i]); if (mpz_cmp_ui(den, 1) != 0) err("Invalid integer"); int cmp; if ((sizeof(unsigned long) >= 8 && type.size <= 8) || type.size <= 4) { unsigned long x = 1UL << (type.size * 8 - type.issigned); cmp = mpz_cmp_ui(num, x - 1); } else { mpz_t x; mp_bitcnt_t bits = type.size * 8; if (type.issigned) bits--; mpz_init_set_ui(x, 1); mpz_mul_2exp(x, x, bits); mpz_sub_ui(x, x, 1); cmp = mpz_cmp(num, x); mpz_clear(x); } if (cmp > 0) err("Integer too large for datatype"); /* The max value of a u128 is length 39 */ char buf[40]; mpz_get_str(buf, 10, num); *outv = LLVMConstIntOfString(type2llvm(ctx, type), buf, 10); return fwdnode(ctx.ast, i); } else if (MPQ_IS_INIT(ctx.folds[i]) /* && type.isfloat */) { /* FIXME: This is bad and broken */ mpf_t x; mpf_init(x); mpf_set_q(x, ctx.folds[i]); char buf[256]; gmp_snprintf(buf, sizeof(buf), "%Ff", x); *outv = LLVMConstRealOfString(type2llvm(ctx, type), buf); mpf_clear(x); return fwdnode(ctx.ast, i); } assert(ctx.ast.kinds[i] == ASTIDENT); strview_t sv = ctx.toks.strs[ctx.ast.lexemes[i]]; LLVMTypeRef t = type2llvm(ctx, ctx.types[i]); LLVMValueRef ptrval = symtab_insert(&ctx.scps[ctx.scpi].map, sv, NULL)->v; *outv = LLVMBuildLoad2(ctx.bob, t, ptrval, "loadtmp"); return fwdnode(ctx.ast, i); } idx_t codegenstmt(struct cgctx ctx, idx_t i) { switch (ctx.ast.kinds[i]) { case ASTDECL: case ASTCDECL: return codegendecl(ctx, i); case ASTRET: { idx_t expr = ctx.ast.kids[i].rhs; if (expr == AST_EMPTY) { LLVMBuildRetVoid(ctx.bob); return fwdnode(ctx.ast, i); } LLVMValueRef v; i = codegentypedexpr(ctx, expr, ctx.types[i], &v); (void)LLVMBuildRet(ctx.bob, v); return i; } default: __builtin_unreachable(); } } idx_t codegenblk(struct cgctx ctx, idx_t i) { pair_t p = ctx.ast.kids[i]; while (ctx.scps[ctx.scpi].i != p.lhs) ctx.scpi++; for (i = p.lhs; i <= p.rhs; i = codegenstmt(ctx, i)) ; return i; } idx_t codegenalloca(struct cgctx ctx, idx_t i) { pair_t p = ctx.ast.kids[i]; while (ctx.scps[ctx.scpi].i != p.lhs) ctx.scpi++; for (i = p.lhs; i <= p.rhs;) { switch (ctx.ast.kinds[i]) { case ASTBLK: i = codegenalloca(ctx, i); break; case ASTDECL: { strview_t sv = ctx.toks.strs[ctx.ast.lexemes[i]]; uchar *name = tmpalloc(ctx.s, sv.len + 1, 1); LLVMTypeRef t = type2llvm(ctx, ctx.types[i]); symtab_insert(&ctx.scps[ctx.scpi].map, sv, NULL)->v = LLVMBuildAlloca(ctx.bob, t, svtocstr(name, sv)); } /* fallthrough */ default: i = fwdnode(ctx.ast, i); } } return i; } idx_t codegenfunc(struct cgctx ctx, idx_t i, strview_t sv) { size_t namesz = ctx.namespace.len + sv.len + 1; char *name = arena_new(ctx.a, char, namesz + 1); if (ctx.namespace.len == 0) { svtocstr(name, sv); namesz--; } else sprintf(name, "%.*s.%.*s", SV_PRI_ARGS(ctx.namespace), SV_PRI_ARGS(sv)); ctx.namespace.p = name; ctx.namespace.len = namesz; idx_t proto = ctx.ast.kids[i].lhs; idx_t blk = ctx.ast.kids[i].rhs; snapshot_t snap = arena_snapshot_create(*ctx.a); for (idx_t i = ctx.ast.kids[blk].lhs; i <= ctx.ast.kids[blk].rhs; i = fwdnode(ctx.ast, i)) { if (ctx.ast.kinds[i] == ASTCDECL && ctx.ast.kids[i].rhs != AST_EMPTY && ctx.ast.kinds[ctx.ast.kids[i].rhs] == ASTFN) { (void)codegendecl(ctx, i); } } arena_snapshot_restore(ctx.a, snap); LLVMTypeRef ret = ctx.types[i].ret == NULL ? LLVMVoidTypeInContext(ctx.ctx) : type2llvm(ctx, *ctx.types[i].ret); LLVMTypeRef ft = LLVMFunctionType(ret, NULL, 0, false); ctx.func = LLVMAddFunction(ctx.mod, name, ft); LLVMBasicBlockRef entry = LLVMAppendBasicBlockInContext(ctx.ctx, ctx.func, "entry"); LLVMPositionBuilderAtEnd(ctx.bob, entry); snap = arena_snapshot_create(*ctx.a); (void)codegenalloca(ctx, blk); arena_snapshot_restore(ctx.a, snap); i = codegenblk(ctx, blk); if (ctx.ast.kids[proto].rhs == AST_EMPTY) LLVMBuildRetVoid(ctx.bob); return i; } idx_t codegendecl(struct cgctx ctx, idx_t i) { pair_t p = ctx.ast.kids[i]; if (ctx.ast.kinds[i] == ASTCDECL) { /* Constants are purely a compiler concept; they aren’t generated into anything unless they’re functions… but functions shouldn’t be generated if we’re inside a function already, because codegenfunc() will have already generated its child functions before codegendecl() gets called. */ if (ctx.ast.kinds[p.rhs] != ASTFN || ctx.func != NULL) return fwdnode(ctx.ast, i); return codegenfunc(ctx, p.rhs, ctx.toks.strs[ctx.ast.lexemes[i]]); } assert(ctx.ast.kinds[i] == ASTDECL); /* Don’t assign a default value to ‘x: int = …’ */ if (ctx.aux.buf[p.lhs].decl.isundef) return fwdnode(ctx.ast, i); if (ctx.aux.buf[p.lhs].decl.isstatic) { strview_t sv = ctx.toks.strs[ctx.ast.lexemes[i]]; /* TODO: Namespace the name */ char *name = tmpalloc(ctx.s, sv.len + 1, 1); LLVMTypeRef t = type2llvm(ctx, ctx.types[i]); LLVMValueRef globl = LLVMAddGlobal(ctx.mod, t, svtocstr(name, sv)); LLVMValueRef v; if (p.rhs == AST_EMPTY) { v = LLVMConstNull(t); i = fwdnode(ctx.ast, i); } else i = codegentypedexpr(ctx, p.rhs, ctx.types[i], &v); LLVMSetInitializer(globl, v); LLVMSetLinkage(globl, LLVMInternalLinkage); return i; } /* Non-static, non-undef, mutable */ LLVMValueRef var, val; /* TODO: Namespace the name */ strview_t sv = ctx.toks.strs[ctx.ast.lexemes[i]]; var = symtab_insert(&ctx.scps[ctx.scpi].map, sv, NULL)->v; if (p.rhs == AST_EMPTY) { val = LLVMConstNull(type2llvm(ctx, ctx.types[i])); i = fwdnode(ctx.ast, i); } else i = codegentypedexpr(ctx, p.rhs, ctx.types[i], &val); LLVMBuildStore(ctx.bob, val, var); return i; } void codegenast(struct cgctx ctx) { for (idx_t i = 0; i < ctx.ast.len; i = codegendecl(ctx, i)) ; } LLVMTypeRef type2llvm(struct cgctx ctx, type_t t) { switch (t.kind) { case TYPE_FN: err("codegen: %s: Not implemented for function types", __func__); case TYPE_NUM: if (t.isfloat) { switch (t.size) { case 2: return LLVMHalfTypeInContext(ctx.ctx); case 4: return LLVMFloatTypeInContext(ctx.ctx); case 0: case 8: return LLVMDoubleTypeInContext(ctx.ctx); case 16: return LLVMFP128TypeInContext(ctx.ctx); default: __builtin_unreachable(); } } if (t.size == 0) return LLVMIntPtrTypeInContext(ctx.ctx, ctx.td); assert((unsigned)t.size * 8 <= 128); return LLVMIntTypeInContext(ctx.ctx, t.size * 8); default: __builtin_unreachable(); } }