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/*
Copyright (C) 2019, 2020 Leo Tenenbaum.
This file is part of toc. toc is distributed under version 3 of the GNU General Public License, without any warranty whatsoever.
You should have received a copy of the GNU General Public License along with toc. If not, see <https://www.gnu.org/licenses/>.
these copy functions MUST be used before typing!!!! (except for copy_val)
-----
IMPORTANT:
These functions are like memcpy, in that in and out must not overlap!
-----
*/
typedef struct {
Allocator *allocr;
Block *block;
} Copier;
static Expression *copy_expr_(Copier *c, Expression *in);
static void copy_expr(Copier *c, Expression *out, Expression *in);
static void copy_decl(Copier *c, Declaration *out, Declaration *in);
enum {
COPY_BLOCK_DONT_CREATE_IDENTS = 0x01
};
static void copy_block(Copier *c, Block *out, Block *in, U8 flags);
static void copy_type(Copier *c, Type *out, Type *in);
static Type *copy_type_(Copier *c, Type *in);
static Copier copier_create(Allocator *a, Block *b) {
Copier c;
c.allocr = a;
c.block = b;
return c;
}
static void copy_val(Allocator *a, Value *out, Value in, Type *t) {
assert(t->flags & TYPE_IS_RESOLVED);
switch (t->kind) {
case TYPE_BUILTIN:
if (t->builtin == BUILTIN_VARARGS) {
size_t n = arr_len(in.varargs);
out->varargs = NULL;
arr_set_lena(&out->varargs, n, a);
for (size_t i = 0; i < n; ++i) {
Copier c = copier_create(a, NULL); /* since the type is resolved, it doesn't matter that the block is wrong */
out->varargs[i].type = copy_type_(&c, in.varargs[i].type);
out->varargs[i].val = in.varargs[i].val;
}
break;
}
/* fallthrough */
case TYPE_FN:
case TYPE_PTR:
case TYPE_SLICE:
case TYPE_VOID:
case TYPE_UNKNOWN:
*out = in;
break;
case TYPE_ARR: {
size_t bytes = (size_t)t->arr.n * compiler_sizeof(t->arr.of);
out->arr = allocr_malloc(a, bytes);
memcpy(out->arr, in.arr, bytes);
} break;
case TYPE_TUPLE: {
size_t bytes = arr_len(t->tuple) * sizeof(*out->tuple);
out->tuple = allocr_malloc(a, bytes);
memcpy(out->tuple, in.tuple, bytes);
} break;
case TYPE_STRUCT: {
size_t bytes = compiler_sizeof(t);
out->struc = allocr_malloc(a, bytes);
memcpy(out->struc, in.struc, bytes);
} break;
case TYPE_EXPR:
assert(0);
break;
}
}
static void copy_val_full(Copier *c, Value *out, Value in, Type *t) {
if (type_is_builtin(t, BUILTIN_TYPE)) {
Type *new_type = allocr_malloc(c->allocr, sizeof *new_type);
copy_type(c, new_type, in.type);
out->type = new_type;
} else {
copy_val(c->allocr, out, in, t);
}
}
static void copy_struct(Copier *c, StructDef *out, StructDef *in) {
*out = *in;
out->body = in->body;
idents_create(&out->body.idents, c->allocr, &out->body);
Block *prev = c->block;
copy_block(c, &out->body, &in->body, 0);
c->block = &out->body;
if (in->flags & STRUCT_DEF_RESOLVED) {
size_t nfields = arr_len(in->fields);
out->fields = NULL;
arr_set_lena(&out->fields, nfields, c->allocr);
for (size_t i = 0; i < nfields; ++i) {
Field *fout = &out->fields[i];
Field *fin = &in->fields[i];
*fout = *fin;
fout->type = copy_type_(c, fin->type);
}
}
size_t nparams = arr_len(in->params);
out->params = NULL;
arr_set_lena(&out->params, nparams, c->allocr);
for (size_t i = 0; i < nparams; ++i) {
copy_decl(c, &out->params[i], &in->params[i]);
}
c->block = prev;
}
/* works on unresolved and resolved types (for inference) */
static void copy_type(Copier *c, Type *out, Type *in) {
*out = *in;
switch (in->kind) {
case TYPE_BUILTIN:
case TYPE_VOID:
case TYPE_UNKNOWN:
break;
case TYPE_EXPR:
out->expr = copy_expr_(c, in->expr);
break;
case TYPE_FN: {
size_t ntypes = arr_len(in->fn.types);
out->fn.types = NULL;
arr_set_lena(&out->fn.types, ntypes, c->allocr);
for (size_t i = 0; i < ntypes; ++i) {
copy_type(c, &out->fn.types[i], &in->fn.types[i]);
}
} break;
case TYPE_TUPLE: {
size_t ntypes = arr_len(in->tuple);
out->tuple = NULL;
arr_set_lena(&out->tuple, ntypes, c->allocr);
for (size_t i = 0; i < ntypes; ++i) {
copy_type(c, &out->tuple[i], &in->tuple[i]);
}
} break;
case TYPE_ARR:
if (in->flags & TYPE_IS_RESOLVED) {
out->arr.n = in->arr.n;
} else {
out->arr.n_expr = copy_expr_(c, in->arr.n_expr);
}
out->arr.of = copy_type_(c, in->arr.of);
break;
case TYPE_PTR:
out->ptr = copy_type_(c, in->ptr);
break;
case TYPE_SLICE:
out->slice = copy_type_(c, in->slice);
break;
case TYPE_STRUCT: {
if (in->flags & TYPE_IS_RESOLVED) {
/* we don't actually need to make a copy of the struct here */
} else {
/*
it's okay to copy the struct definition here, because before resolving,
only one thing can point to a given StructDef
*/
out->struc = allocr_malloc(c->allocr, sizeof *out->struc);
copy_struct(c, out->struc, in->struc);
}
} break;
}
}
static Type *copy_type_(Copier *c, Type *in) {
Type *out = allocr_malloc(c->allocr, sizeof *out);
copy_type(c, out, in);
return out;
}
static inline void *copier_malloc(Copier *c, size_t n) {
return allocr_malloc(c->allocr, n);
}
enum {
COPY_FN_EXPR_DONT_COPY_HEADER = 0x01,
COPY_FN_EXPR_DONT_COPY_BODY = 0x02
};
static void copy_fn_expr(Copier *c, FnExpr *fout, FnExpr *fin, U8 flags) {
*fout = *fin;
bool copy_body = (flags & COPY_FN_EXPR_DONT_COPY_BODY) == 0;
bool copy_header = (flags & COPY_FN_EXPR_DONT_COPY_HEADER) == 0;
if (fin->flags & FN_EXPR_FOREIGN) {
copy_expr(c, fout->foreign.name_expr = copier_malloc(c, sizeof *fin->foreign.name_expr), fin->foreign.name_expr);
copy_expr(c, fout->foreign.lib_expr = copier_malloc(c, sizeof *fin->foreign.lib_expr), fin->foreign.lib_expr);
copy_type(c, &fout->foreign.type, &fin->foreign.type);
size_t nctypes = arr_len(fin->foreign.type.fn.types);
fout->foreign.ctypes = copier_malloc(c, nctypes * sizeof(CType));
memcpy(fout->foreign.ctypes, fin->foreign.ctypes, nctypes * sizeof(CType));
} else {
Block *prev = c->block;
if (copy_body) {
c->block = &fout->body;
idents_create(&fout->body.idents, c->allocr, &fout->body);
}
if (copy_header) {
size_t i;
size_t nparam_decls = arr_len(fin->params);
fout->params = NULL;
arr_set_lena(&fout->params, nparam_decls, c->allocr);
for (i = 0; i < nparam_decls; ++i)
copy_decl(c, fout->params + i, fin->params + i);
size_t nret_decls = arr_len(fin->ret_decls);
if (fin->ret_decls) {
fout->ret_decls = NULL;
arr_set_lena(&fout->ret_decls, nret_decls, c->allocr);
for (i = 0; i < nret_decls; ++i)
copy_decl(c, fout->ret_decls + i, fin->ret_decls + i);
}
copy_type(c, &fout->ret_type, &fin->ret_type);
}
c->block = prev;
if (copy_body) {
copy_block(c, &fout->body, &fin->body, copy_body ? COPY_BLOCK_DONT_CREATE_IDENTS : 0);
}
}
}
static inline void copier_ident_translate(Copier *c, Identifier *i) {
assert(c->block);
assert(c->block->idents.scope == c->block);
*i = ident_translate_forced(*i, &c->block->idents);
}
static void copy_expr(Copier *c, Expression *out, Expression *in) {
Allocator *a = c->allocr;
*out = *in;
assert(!(in->flags & EXPR_FOUND_TYPE));
switch (in->kind) {
case EXPR_LITERAL_FLOAT:
case EXPR_LITERAL_INT:
case EXPR_LITERAL_STR:
case EXPR_LITERAL_CHAR:
case EXPR_LITERAL_BOOL:
break;
case EXPR_IDENT:
copier_ident_translate(c, &out->ident);
break;
case EXPR_UNARY_OP:
out->unary.of = copy_expr_(c, in->unary.of);
break;
case EXPR_BINARY_OP:
out->binary.lhs = copy_expr_(c, in->binary.lhs);
out->binary.rhs = copy_expr_(c, in->binary.rhs);
break;
case EXPR_IF: {
IfExpr *iin = in->if_;
IfExpr *iout = out->if_ = allocr_malloc(a, sizeof *iout);
*iout = *iin;
if (iin->cond)
iout->cond = copy_expr_(c, iin->cond);
if (iin->next_elif)
iout->next_elif = copy_expr_(c, iin->next_elif);
copy_block(c, &iout->body, &iin->body, 0);
} break;
case EXPR_WHILE: {
WhileExpr *win = in->while_;
WhileExpr *wout = out->while_ = allocr_malloc(a, sizeof *wout);
*wout = *win;
if (win->cond)
wout->cond = copy_expr_(c, win->cond);
copy_block(c, &wout->body, &win->body, 0);
} break;
case EXPR_FOR: {
ForExpr *fin = in->for_;
ForExpr *fout = allocr_malloc(a, sizeof *fout);
out->for_ = fout;
*fout = *fin;
Block *prev = c->block;
idents_create(&fout->body.idents, c->allocr, &fout->body);
c->block = &fout->body;
if (fout->index) {
copier_ident_translate(c, &fout->index);
fout->index->decl_kind = IDECL_FOR;
fout->index->decl_for = fout;
}
if (fout->value) {
copier_ident_translate(c, &fout->value);
fout->value->decl_kind = IDECL_FOR;
fout->value->decl_for = fout;
}
if (fin->flags & FOR_ANNOTATED_TYPE)
copy_type(c, &fout->type, &fin->type);
if (fin->flags & FOR_IS_RANGE) {
fout->range.from = copy_expr_(c, fin->range.from);
if (fin->range.to)
fout->range.to = copy_expr_(c, fin->range.to);
if (fin->range.step)
fout->range.step = copy_expr_(c, fin->range.step);
} else {
fout->of = copy_expr_(c, fin->of);
}
c->block = prev;
copy_block(c, &fout->body, &fin->body, COPY_BLOCK_DONT_CREATE_IDENTS);
} break;
case EXPR_FN:
copy_fn_expr(c, out->fn = allocr_malloc(a, sizeof *out->fn), in->fn, 0);
break;
case EXPR_CAST: {
CastExpr *cin = &in->cast;
CastExpr *cout = &out->cast;
copy_type(c, &cout->type, &cin->type);
cout->expr = copy_expr_(c, cin->expr);
} break;
case EXPR_CALL: {
CallExpr *cin = &in->call;
CallExpr *cout = &out->call;
copy_expr(c, cout->fn = allocr_malloc(a, sizeof *cout->fn), cin->fn);
size_t nargs = arr_len(cin->args);
cout->arg_exprs = NULL;
arr_set_lena(&cout->args, nargs, a);
for (size_t i = 0; i < nargs; ++i) {
Argument *arg_in = &cin->args[i];
Argument *arg_out = &cout->args[i];
*arg_out = *arg_in;
copy_expr(c, &arg_out->val, &arg_in->val);
}
} break;
case EXPR_BLOCK:
copy_block(c, out->block = allocr_malloc(a, sizeof *out->block), in->block, 0);
break;
case EXPR_TUPLE: {
size_t nexprs = arr_len(in->tuple);
out->tuple = NULL;
arr_set_lena(&out->tuple, nexprs, a);
for (size_t i = 0; i < nexprs; ++i)
copy_expr(c, out->tuple + i, in->tuple + i);
} break;
case EXPR_C:
out->c.code = copy_expr_(c, in->c.code);
break;
case EXPR_BUILTIN:
out->builtin.which.expr = copy_expr_(c, in->builtin.which.expr);
break;
case EXPR_SLICE: {
SliceExpr *sin = &in->slice;
SliceExpr *sout = &out->slice;
copy_expr(c, sout->of = allocr_malloc(a, sizeof *sout->of), sin->of);
if (sin->from)
sout->from = copy_expr_(c, sin->from);
if (sin->to)
sout->to = copy_expr_(c, sin->to);
} break;
case EXPR_TYPE:
copy_type(c, out->typeval = copier_malloc(c, sizeof *out->typeval), in->typeval);
break;
case EXPR_VAL:
copy_val(a, &out->val, in->val, &in->type);
break;
case EXPR_NMS:
out->nms = allocr_malloc(a, sizeof *out->nms);
*out->nms = *in->nms;
copy_block(c, &out->nms->body, &in->nms->body, 0);
break;
}
}
static Expression *copy_expr_(Copier *c, Expression *in) {
Expression *out = allocr_malloc(c->allocr, sizeof *out);
copy_expr(c, out, in);
return out;
}
static void copy_decl(Copier *c, Declaration *out, Declaration *in) {
*out = *in;
assert(!(in->flags & DECL_FOUND_TYPE));
if (in->flags & DECL_HAS_EXPR)
copy_expr(c, &out->expr, &in->expr);
if (in->flags & DECL_FOUND_VAL) {
copy_val(c->allocr, &out->val, in->val, &in->type);
}
if (in->flags & DECL_ANNOTATES_TYPE)
copy_type(c, &out->type, &in->type);
out->idents = NULL;
size_t nidents = arr_len(in->idents);
arr_set_lena(&out->idents, nidents, c->allocr);
for (size_t i = 0; i < nidents; ++i) {
out->idents[i] = in->idents[i];
assert(c->block);
copier_ident_translate(c, &out->idents[i]);
out->idents[i]->decl_kind = IDECL_DECL;
out->idents[i]->decl = out;
}
}
static void copy_stmt(Copier *c, Statement *out, Statement *in) {
*out = *in;
switch (in->kind) {
case STMT_RET:
out->ret = copier_malloc(c, sizeof *out->ret);
*out->ret = *in->ret;
if (in->ret->flags & RET_HAS_EXPR)
copy_expr(c, &out->ret->expr, &in->ret->expr);
break;
case STMT_INCLUDE:
out->inc = copier_malloc(c, sizeof *out->inc);
*out->inc = *in->inc;
if (in->flags & STMT_TYPED) {
size_t nstmts = arr_len(in->inc->stmts);
arr_set_lena(&out->inc->stmts, nstmts, c->allocr);
for (size_t i = 0; i < nstmts; ++i) {
copy_stmt(c, &out->inc->stmts[i], &in->inc->stmts[i]);
}
} else {
copy_expr(c, &out->inc->filename, &in->inc->filename);
}
break;
case STMT_EXPR:
out->expr = copy_expr_(c, in->expr);
break;
case STMT_DECL:
copy_decl(c, out->decl = allocr_malloc(c->allocr, sizeof *out->decl), in->decl);
break;
case STMT_MESSAGE:
out->message = copier_malloc(c, sizeof *out->message);
*out->message = *in->message;
copy_expr(c, &out->message->text, &in->message->text);
break;
case STMT_DEFER:
copy_stmt(c, out->defer = allocr_malloc(c->allocr, sizeof *out->defer), in->defer);
break;
case STMT_BREAK:
case STMT_CONT:
break;
case STMT_USE:
out->use = copier_malloc(c, sizeof *in->use);
*out->use = *in->use;
copy_expr(c, &out->use->expr, &in->use->expr);
break;
}
}
/* COPY_BLOCK_DONT_CREATE_IDENTS is for copy_fn_expr */
static void copy_block(Copier *c, Block *out, Block *in, U8 flags) {
assert(!(in->flags & BLOCK_FINDING_TYPES));
Identifiers out_idents = out->idents;
*out = *in;
out->parent = c->block;
if (flags & COPY_BLOCK_DONT_CREATE_IDENTS)
out->idents = out_idents; /* reset Identifiers */
size_t nstmts = arr_len(in->stmts);
out->stmts = NULL;
Block *prev = c->block;
c->block = out;
if (in->ret_expr)
out->ret_expr = copy_expr_(c, in->ret_expr);
if (!(flags & COPY_BLOCK_DONT_CREATE_IDENTS))
idents_create(&out->idents, c->allocr, out);
arr_set_lena(&out->stmts, nstmts, c->allocr);
for (size_t i = 0; i < nstmts; ++i) {
copy_stmt(c, &out->stmts[i], &in->stmts[i]);
}
c->block = prev;
}
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