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#include <ctype.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <gmp.h>
#include <llvm-c/Analysis.h>
#include <llvm-c/Core.h>
#include <llvm-c/ExecutionEngine.h>
#include "alloc.h"
#include "analyzer.h"
#include "common.h"
#include "errors.h"
#include "parser.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 void codegenast(struct cgctx);
static LLVMTypeRef type2llvm(struct cgctx, type_t);
static symval_t *symtab_get_from_scopes(struct cgctx ctx, strview_t sv);
extern bool lflag, sflag;
extern const char *oflag;
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(AArch64);
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);
if (lflag) {
if (oflag == NULL)
LLVMDumpModule(ctx.mod);
else if (LLVMPrintModuleToFile(llmod, oflag, &error) == 1)
err("codegen: %s", error);
} else {
LLVMCodeGenFileType ft;
const char *dst = oflag == NULL ? "out.o" : oflag;
if (sflag) {
size_t n = strlen(dst);
char *buf = memcpy(tmpalloc(ctx.s, n + 1, 1), dst, n);
buf[n - 1] = 's';
buf[n - 0] = 0;
dst = buf;
ft = LLVMAssemblyFile;
} else
ft = LLVMObjectFile;
LLVMTargetMachineEmitToFile(llmach, llmod, dst, ft, &error);
}
#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) {
char buf[40 /* The max value of a u128 is length 39 */];
mpz_get_str(buf, 10, mpq_numref(ctx.folds[i]));
*outv = LLVMConstIntOfString(type2llvm(ctx, type), buf, 10);
return fwdnode(ctx.ast, i);
} else if (MPQ_IS_INIT(ctx.folds[i]) /* && type.isfloat */) {
char *s, *buf;
size_t len;
mpf_t x;
mp_exp_t e;
mp_bitcnt_t prec;
/* TODO: Is this even correct? */
switch (type.size) {
case 2:
prec = 5;
break;
case 4:
prec = 8;
break;
case 8:
prec = 11;
break;
case 16:
prec = 16;
break;
default:
__builtin_unreachable();
}
mpf_init2(x, prec);
mpf_set_q(x, ctx.folds[i]);
s = mpf_get_str(NULL, &e, 10, 0, x);
len = strlen(s);
buf = tmpalloc(ctx.s, len + 2, 1);
for (size_t i = 0; i < (size_t)e; i++)
buf[i] = s[i];
buf[e] = '.';
for (size_t i = e; i < len; i++)
buf[i + 1] = s[i];
buf[len + 1] = 0;
*outv = LLVMConstRealOfString(type2llvm(ctx, type), buf);
free(s);
mpf_clear(x);
return fwdnode(ctx.ast, i);
}
switch (ctx.ast.kinds[i]) {
case ASTIDENT: {
strview_t sv = ctx.toks.strs[ctx.ast.lexemes[i]];
LLVMTypeRef t = type2llvm(ctx, ctx.types[i]);
LLVMValueRef ptrval = symtab_get_from_scopes(ctx, sv)->v;
*outv = LLVMBuildLoad2(ctx.bob, t, ptrval, "load");
return fwdnode(ctx.ast, i);
}
case ASTUNCMPL: {
LLVMValueRef v, minus_one;
minus_one = LLVMConstInt(type2llvm(ctx, ctx.types[i]), -1, false);
idx_t ni = codegentypedexpr(ctx, ctx.ast.kids[i].rhs, ctx.types[i], &v);
*outv = LLVMBuildXor(ctx.bob, v, minus_one, "cmpl");
return ni;
}
case ASTUNNEG: {
LLVMValueRef v;
idx_t ni = codegentypedexpr(ctx, ctx.ast.kids[i].rhs, ctx.types[i], &v);
*outv = LLVMBuildNeg(ctx.bob, v, "neg");
return ni;
}
case ASTBINADD:
case ASTBINAND:
case ASTBINDIV:
case ASTBINIOR:
case ASTBINMOD:
case ASTBINMUL:
case ASTBINSHL:
case ASTBINSHR:
case ASTBINSUB:
case ASTBINXOR: {
typedef LLVMValueRef llbfn(LLVMBuilderRef, LLVMValueRef, LLVMValueRef,
const char *);
static const struct binop {
llbfn *fn[3];
const char *name;
} binoptbl[UINT8_MAX + 1] = {
['+'] = {{LLVMBuildAdd, LLVMBuildAdd, LLVMBuildFAdd}, "add"},
['&'] = {{LLVMBuildAnd, LLVMBuildAnd, NULL}, "and"},
['*'] = {{LLVMBuildMul, LLVMBuildMul, LLVMBuildFMul}, "mul"},
['|'] = {{LLVMBuildOr, LLVMBuildOr, NULL}, "ior"},
['-'] = {{LLVMBuildSub, LLVMBuildSub, LLVMBuildFSub}, "sub"},
['/'] = {{LLVMBuildUDiv, LLVMBuildSDiv, LLVMBuildFDiv}, "div"},
['%'] = {{LLVMBuildURem, LLVMBuildSRem, NULL}, "rem"},
['~'] = {{LLVMBuildXor, LLVMBuildXor, NULL}, "xor"},
[ASTBINSHL] = {{LLVMBuildShl, LLVMBuildShl, NULL}, "shl"},
[ASTBINSHR] = {{LLVMBuildLShr, LLVMBuildLShr, NULL}, "shr"},
};
idx_t lhs = ctx.ast.kids[i].lhs, rhs = ctx.ast.kids[i].rhs;
LLVMValueRef vl, vr;
(void)codegentypedexpr(ctx, lhs, ctx.types[i], &vl);
idx_t ni = codegentypedexpr(ctx, rhs, ctx.types[i], &vr);
if (ctx.ast.kinds[i] >= ASTBINSHL && ctx.types[rhs].size != 0) {
vr = LLVMBuildIntCast2(ctx.bob, vr, type2llvm(ctx, ctx.types[lhs]),
false, "cast");
}
struct binop bo = binoptbl[ctx.ast.kinds[i]];
*outv = bo.fn[ctx.types[i].isfloat ? 2 : ctx.types[i].issigned](
ctx.bob, vl, vr, bo.name);
return ni;
}
default:
__builtin_unreachable();
}
}
idx_t
codegenstmt(struct cgctx ctx, idx_t i)
{
switch (ctx.ast.kinds[i]) {
case ASTDECL:
case ASTCDECL:
return codegendecl(ctx, i);
case ASTASIGN: {
pair_t p = ctx.ast.kids[i];
assert(ctx.ast.kinds[p.lhs] == ASTIDENT);
LLVMValueRef var, val;
var = symtab_get_from_scopes(ctx, ctx.toks.strs[ctx.ast.lexemes[p.lhs]])
->v;
i = codegentypedexpr(ctx, p.rhs, ctx.types[i], &val);
LLVMBuildStore(ctx.bob, val, var);
return 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 {
snprintf(name, namesz + 1, "%.*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));
symtab_insert(&ctx.scps[ctx.scpi].map, sv, NULL)->v = globl;
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;
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:
assert(t.size != 0);
assert((unsigned)t.size * 8 <= 128);
if (!t.isfloat)
return LLVMIntTypeInContext(ctx.ctx, t.size * 8);
switch (t.size) {
case 2:
return LLVMHalfTypeInContext(ctx.ctx);
case 4:
return LLVMFloatTypeInContext(ctx.ctx);
case 8:
return LLVMDoubleTypeInContext(ctx.ctx);
case 16:
return LLVMFP128TypeInContext(ctx.ctx);
default:
__builtin_unreachable();
}
default:
__builtin_unreachable();
}
}
symval_t *
symtab_get_from_scopes(struct cgctx ctx, strview_t sv)
{
for (;;) {
symval_t *p = symtab_insert(&ctx.scps[ctx.scpi].map, sv, NULL);
if (p != NULL || ctx.scpi == 0)
return p;
ctx.scpi = ctx.scps[ctx.scpi].up;
}
}
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