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jsfw/ser/codegen_python.c

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ser python backend, somewhat tested but could break
2023-05-15 09:40:45 -05:00
#include "codegen_python.h"
#include <stddef.h>
static void write_type_name(Writer *w, TypeObject *type, Hashmap *defined) {
if (type->kind == TypePrimitif) {
#define _case(x, str) \
case Primitif_##x: \
wt_format(w, str); \
return
switch (type->type.primitif) {
_case(u8, "int");
_case(u16, "int");
_case(u32, "int");
_case(u64, "int");
_case(i8, "int");
_case(i16, "int");
_case(i32, "int");
_case(i64, "int");
_case(f32, "float");
_case(f64, "float");
_case(bool, "bool");
_case(char, "str");
}
#undef _case
} else if (type->kind == TypeArray) {
// If we have an array of char
if (type->type.array.type->kind == TypePrimitif && type->type.array.type->type.primitif == Primitif_char) {
wt_format(w, "str");
return;
}
wt_format(w, "List[");
write_type_name(w, type->type.array.type, defined);
wt_format(w, "]");
} else if (type->kind == TypeStruct) {
StructObject *obj = (StructObject *)&type->type.struct_;
if (defined == NULL || hashmap_has(defined, &obj)) {
wt_write(w, obj->name.ptr, obj->name.len);
} else {
wt_format(w, "'%.*s'", obj->name.len, obj->name.ptr);
}
}
}
typedef enum {
Read,
Write,
} Access;
static void write_field_accessor(Writer *w, const char *base, FieldAccessor fa, TypeObject *type, Access access) {
if (fa.indices.len == 0) {
wt_format(w, "%s", base);
return;
}
BufferedWriter b = buffered_writer_init();
Writer *w2 = (Writer *)&b;
bool len = false;
wt_format(w2, "%s", base);
for (size_t i = 0; i < fa.indices.len; i++) {
uint64_t index = fa.indices.data[i];
if (type->kind == TypeStruct) {
StructObject *obj = (StructObject *)&type->type.struct_;
Field f = obj->fields.data[index];
wt_format(w2, ".%.*s", f.name.len, f.name.ptr);
type = f.type;
} else if (type->kind == TypeArray) {
if (type->type.array.sizing == SizingMax) {
len = index == 0;
break;
} else {
wt_format(w2, "[%lu]", index);
type = type->type.array.type;
}
}
}
if (len) {
if (access == Read) {
wt_format(w, "len(%.*s)", b.buf.len, b.buf.data);
} else {
CharVec buf = b.buf;
for (size_t i = 0; i < buf.len; i++) {
if (buf.data[i] == '.') {
buf.data[i] = '_';
}
}
wt_write(w, buf.data, buf.len);
wt_format(w, "_len");
}
} else {
wt_write(w, b.buf.data, b.buf.len);
}
buffered_writer_drop(b);
}
static bool field_accessor_is_array_length(FieldAccessor fa, TypeObject *type) {
if (fa.indices.len == 0 || fa.indices.data[fa.indices.len - 1] != 0 || fa.type->kind != TypePrimitif)
return false;
for (size_t i = 0; i < fa.indices.len - 1; i++) {
uint64_t index = fa.indices.data[i];
if (type->kind == TypeStruct) {
StructObject *s = (StructObject *)&type->type.struct_;
type = s->fields.data[index].type;
} else if (type->kind == TypeArray) {
type = type->type.array.type;
}
}
return type->kind == TypeArray && type->type.array.sizing == SizingMax;
}
// Find the index of the FieldAccessor that points to the length of this array
static uint64_t get_array_length_field_index(Layout *layout, FieldAccessor fa) {
size_t index = SIZE_MAX;
for (size_t j = 0; j < layout->fields.len && layout->fields.data[j].size != 0; j++) {
FieldAccessor f = layout->fields.data[j];
if (f.indices.len != fa.indices.len)
continue;
// Check the indices for equality, all but the last one should be equal
bool equal = true;
for (size_t k = 0; k < f.indices.len - 1; k++) {
if (f.indices.data[k] != fa.indices.data[k]) {
equal = false;
break;
}
}
if (equal && f.indices.data[f.indices.len - 1] == 0) {
index = j;
break;
}
}
if (index == SIZE_MAX) {
log_error("No length accessor for variable size array accessor");
exit(1);
}
return index;
}
static void write_type_uninit(Writer *u, TypeObject *type) {
if (type->kind == TypeStruct) {
StructObject *s = (StructObject *)&type->type.struct_;
for (size_t i = 0; i < s->fields.len; i++) {
Field f = s->fields.data[i];
if (f.type->kind == TypeStruct) {
StringSlice tname = f.type->type.struct_.name;
wt_format(u, "%*sself.%.*s = %.*s.uninit()\n", INDENT * 2, "", f.name.len, f.name.ptr, tname.len, tname.ptr);
} else if (f.type->kind == TypeArray) {
wt_format(u, "%*sself.%.*s = []\n", INDENT * 2, "", f.name.len, f.name.ptr);
}
}
}
}
static void write_type_funcs(
Writer *s,
Writer *d,
TypeObject *type,
const char *base,
CurrentAlignment al,
Hashmap *layouts,
size_t indent,
size_t depth,
bool always_inline
) {
Layout *layout = hashmap_get(layouts, &(Layout){.type = type});
assert(layout != NULL, "Type has no layout");
if (layout->fields.len == 0)
return;
Alignment align = al.align;
size_t offset = calign_to(al, layout->fields.data[0].type->align);
if (offset > 0) {
wt_format(s, "%*sbuf += bytes(%lu)\n", indent, "", offset);
wt_format(d, "%*soff += %lu\n", indent, "", offset);
}
if (type->kind == TypeStruct && !always_inline) {
offset = calign_to(al, layout->type->align);
if (offset != 0) {
wt_format(s, "%*sbuf += bytes(%lu)\n", indent, "", offset);
wt_format(d, "%*soff = %lu\n", indent, "", offset);
}
wt_format(s, "%*s%s.serialize(buf)\n", indent, "", base);
wt_format(d, "%*soff += %s.deserialize(buf[off:])\n", indent, "", base);
return;
}
wt_format(s, "%*sbuf += pack('<", indent, "");
wt_format(d, "%*sxs%lu = unpack('<", indent, "", depth);
al = calign_add(al, offset);
size_t size = 0;
size_t i = 0;
for (; i < layout->fields.len && layout->fields.data[i].size != 0; i++) {
FieldAccessor fa = layout->fields.data[i];
assert(fa.type->kind == TypePrimitif, "Field accessor of non zero size doesn't point to primitive type");
#define _case(x, f) \
case Primitif_##x: \
wt_format(s, f); \
wt_format(d, f); \
break
switch (fa.type->type.primitif) {
_case(u8, "B");
_case(u16, "H");
_case(u32, "I");
_case(u64, "Q");
_case(i8, "b");
_case(i16, "h");
_case(i32, "i");
_case(i64, "q");
_case(f32, "f");
_case(f64, "d");
_case(bool, "?");
_case(char, "c");
}
#undef _case
al = calign_add(al, fa.size);
offset += fa.size;
size += fa.size;
}
size_t padding = 0;
if (i < layout->fields.len) {
padding = calign_to(al, layout->fields.data[i].type->align);
wt_format(s, "%lux", padding);
}
wt_format(s, "',\n");
wt_format(d, "', buf[off:off + %lu])\n", size);
for (size_t j = 0; j < i; j++) {
FieldAccessor fa = layout->fields.data[j];
wt_format(s, "%*s ", indent, "");
write_field_accessor(s, base, fa, type, Read);
if (fa.type->kind == TypePrimitif && fa.type->type.primitif == Primitif_char) {
wt_format(s, ".encode(encoding='ASCII', errors='replace')");
}
if (j < i - 1) {
wt_format(s, ",\n");
} else {
wt_format(s, ")\n");
}
if (!field_accessor_is_array_length(fa, type)) {
wt_format(d, "%*s", indent, "");
write_field_accessor(d, base, fa, type, Write);
wt_format(d, " = xs%lu[%lu]", depth, j);
if (fa.type->kind == TypePrimitif && fa.type->type.primitif == Primitif_char) {
wt_format(d, ".decode(encoding='ASCII', errors='replace')");
}
wt_format(d, "\n");
}
}
if (i < layout->fields.len) {
wt_format(d, "%*soff += %lu\n", indent, "", padding + size);
} else {
wt_format(d, "%*soff += %lu\n", indent, "", padding + size + calign_to(al, align));
}
bool alignment_unknown = false;
for (; i < layout->fields.len; i++) {
alignment_unknown = true;
FieldAccessor fa = layout->fields.data[i];
uint64_t len_index = get_array_length_field_index(layout, fa);
if (fa.type->kind == TypePrimitif && fa.type->type.primitif == Primitif_char) {
wt_format(s, "%*sbuf += ", indent, "");
wt_format(d, "%*s", indent, "");
write_field_accessor(s, base, fa, type, Read);
write_field_accessor(d, base, fa, type, Write);
wt_format(d, " = buf[off:off + xs%lu[%lu]].decode(encoding='ASCII', errors='replace')\n", depth, len_index);
wt_format(d, "%*soff += xs%lu[%lu]\n", indent, "", depth, len_index);
wt_format(s, ".encode(encoding='ASCII', errors='replace')\n");
continue;
}
wt_format(s, "%*sfor e%lu in ", indent, "", depth);
write_field_accessor(s, base, fa, type, Read);
wt_format(s, ":\n");
wt_format(d, "%*s", indent, "");
write_field_accessor(d, base, fa, type, Write);
wt_format(d, " = []\n");
wt_format(d, "%*sfor _ in range(xs%lu[%lu]):\n", indent, "", depth, len_index);
if (fa.type->kind == TypeArray && fa.type->type.array.sizing == SizingFixed) {
wt_format(d, "%*se%lu = [None] * %lu\n", indent + INDENT, "", depth, fa.type->type.array.size);
} else if (fa.type->kind == TypeStruct) {
struct StructObject s = fa.type->type.struct_;
wt_format(d, "%*se%lu = %.*s.uninit()\n", indent + INDENT, "", depth, s.name.len, s.name.ptr);
}
char *new_base = msprintf("e%lu", depth);
write_type_funcs(
s,
d,
fa.type,
new_base,
(CurrentAlignment){.align = fa.type->align, .offset = 0},
layouts,
indent + INDENT,
depth + 1,
false
);
wt_format(d, "%*s", indent + INDENT, "");
write_field_accessor(d, base, fa, type, Write);
wt_format(d, ".append(%s)\n", new_base);
free(new_base);
}
if (alignment_unknown) {
wt_format(s, "%*sbuf += bytes((%u - len(buf)) & %u)\n", indent, "", align.value, align.mask);
wt_format(d, "%*soff += (%u - off) & %u\n", indent, "", align.value, align.mask);
}
}
static void write_struct_class(Writer *w, StructObject *obj, Hashmap *defined, Hashmap *layouts) {
TypeObject *type = (void *)((byte *)obj - offsetof(TypeObject, type));
wt_format(w, "@dataclass\n");
wt_format(w, "class %.*s:\n", obj->name.len, obj->name.ptr);
for (size_t i = 0; i < obj->fields.len; i++) {
Field f = obj->fields.data[i];
wt_format(w, "%*s%.*s: ", INDENT, "", f.name.len, f.name.ptr);
write_type_name(w, f.type, defined);
wt_format(w, "\n");
}
BufferedWriter ser = buffered_writer_init();
BufferedWriter deser = buffered_writer_init();
write_type_funcs(
(Writer *)&ser,
(Writer *)&deser,
type,
"self",
(CurrentAlignment){.align = type->align, .offset = 0},
layouts,
INDENT * 2,
0,
true
);
wt_format(w, "%*s\n", INDENT, "");
wt_format(w, "%*s@classmethod\n", INDENT, "");
wt_format(w, "%*sdef uninit(cls) -> '%.*s':\n", INDENT, "", obj->name.len, obj->name.ptr);
wt_format(w, "%*sself = cls.__new__(cls)\n", INDENT * 2, "");
write_type_uninit(w, type);
wt_format(w, "%*sreturn self\n", INDENT * 2, "");
wt_format(w, "%*s\n", INDENT, "");
wt_format(w, "%*sdef serialize(self, buf: bytearray):\n", INDENT, "");
wt_format(w, "%*sbase = len(buf)\n", INDENT * 2, "");
wt_write(w, ser.buf.data, ser.buf.len);
wt_format(w, "%*sreturn len(buf) - base\n", INDENT * 2, "");
wt_format(w, "%*s\n", INDENT, "");
wt_format(w, "%*sdef deserialize(self, buf: bytes):\n", INDENT, "");
wt_format(w, "%*soff = 0\n", INDENT * 2, "");
wt_write(w, deser.buf.data, deser.buf.len);
wt_format(w, "%*sreturn off\n", INDENT * 2, "");
wt_format(w, "\n");
buffered_writer_drop(ser);
buffered_writer_drop(deser);
hashmap_set(defined, &obj);
}
typedef struct {
Hashmap *layouts;
Hashmap *defined;
} CallbackData;
static void write_struct(Writer *w, StructObject *obj, void *user_data) {
CallbackData *data = user_data;
write_struct_class(w, obj, data->defined, data->layouts);
}
static void define_struct_classes(Writer *w, Program *p) {
Hashmap *defined = hashmap_init(pointer_hash, pointer_equal, NULL, sizeof(StructObject *));
CallbackData data = {.defined = defined, .layouts = p->layouts};
define_structs(p, w, write_struct, &data);
hashmap_drop(defined);
}
static void define_message(Writer *w, const char *prefix, uint16_t tag, Hashmap *layouts, MessageObject msg, uint64_t version) {
char *name = msprintf("%s%.*s", prefix, msg.name.len, msg.name.ptr);
StringSlice name_slice = {.ptr = name, .len = strlen(name)};
wt_format(w, "@dataclass\n");
wt_format(w, "class %s(%sMessage):\n", name, prefix);
TypeObject *type;
FieldVec fields = vec_clone(&msg.fields);
{
if (msg.attributes & Attr_versioned) {
Field f = {.name = STRING_SLICE("_version"), .type = (TypeObject *)&PRIMITIF_u64};
vec_push(&fields, f);
}
type = malloc(sizeof(TypeObject));
assert_alloc(type);
type->kind = TypeStruct;
type->type.struct_.name = name_slice;
type->type.struct_.has_funcs = false;
type->type.struct_.fields = *(AnyVec *)&fields;
type->align = ALIGN_8;
Layout l = type_layout(type);
hashmap_set(layouts, &l);
}
for (size_t i = 0; i < msg.fields.len; i++) {
Field f = msg.fields.data[i];
wt_format(w, "%*s%.*s: ", INDENT, "", f.name.len, f.name.ptr);
write_type_name(w, f.type, NULL);
wt_format(w, "\n");
}
if (msg.attributes & Attr_versioned) {
wt_format(w, "%*s_version: int = %lu\n", INDENT, "", version);
}
BufferedWriter ser = buffered_writer_init();
BufferedWriter deser = buffered_writer_init();
write_type_funcs(
(Writer *)&ser,
(Writer *)&deser,
type,
"self",
(CurrentAlignment){.align = type->align, .offset = 2},
layouts,
INDENT * 2,
0,
true
);
wt_format(w, "%*s\n", INDENT, "");
wt_format(w, "%*s@classmethod\n", INDENT, "");
wt_format(w, "%*sdef uninit(cls) -> '%s':\n", INDENT, "", name);
wt_format(w, "%*sself = cls.__new__(cls)\n", INDENT * 2, "");
write_type_uninit(w, type);
wt_format(w, "%*sreturn self\n", INDENT * 2, "");
wt_format(w, "%*s\n", INDENT, "");
wt_format(w, "%*sdef serialize(self, buf: bytearray):\n", INDENT, "");
wt_format(w, "%*sbase = len(buf)\n", INDENT * 2, "");
wt_format(w, "%*sbuf += pack('>QH', MSG_MAGIC_START, %u)\n", INDENT * 2, "", tag);
wt_write(w, ser.buf.data, ser.buf.len);
wt_format(w, "%*sbuf += pack('>Q', MSG_MAGIC_END)\n", INDENT * 2, "");
wt_format(w, "%*sreturn len(buf) - base\n", INDENT * 2, "");
wt_format(w, "%*s\n", INDENT, "");
wt_format(w, "%*s@classmethod\n", INDENT, "");
wt_format(w, "%*sdef _deserialize(cls, buf: bytes) -> Tuple['%s', int]:\n", INDENT, "", name);
wt_format(w, "%*smagic_start, tag = unpack('>QH', buf[0:10])\n", INDENT * 2, "");
wt_format(w, "%*sif magic_start != MSG_MAGIC_START or tag != %u:\n", INDENT * 2, "", tag);
wt_format(w, "%*sraise ValueError\n", INDENT * 3, "");
wt_format(w, "%*soff = 10\n", INDENT * 2, "");
wt_format(w, "%*sself = %s.uninit()\n", INDENT * 2, "", name);
wt_write(w, deser.buf.data, deser.buf.len);
wt_format(w, "%*smagic_end = unpack('>Q', buf[off:off + 8])[0]\n", INDENT * 2, "");
wt_format(w, "%*sif magic_end != MSG_MAGIC_END:\n", INDENT * 2, "");
wt_format(w, "%*sraise ValueError\n", INDENT * 3, "");
wt_format(w, "%*soff += 8\n", INDENT * 2, "");
wt_format(w, "%*sreturn self, off\n", INDENT * 2, "");
wt_format(w, "\n");
buffered_writer_drop(ser);
buffered_writer_drop(deser);
free(name);
vec_drop(fields);
free(type);
}
static void define_messages(Writer *w, MessagesObject msgs, Program *p) {
char *prefix = strndup(msgs.name.ptr, msgs.name.len);
wt_format(w, "class %sMessage(ABC):\n", prefix);
wt_format(w, "%*s@abstractmethod\n", INDENT, "");
wt_format(w, "%*sdef serialize(self, buf: bytearray) -> int:\n", INDENT, "");
wt_format(w, "%*spass\n", INDENT * 2, "");
wt_format(w, "%*s@classmethod\n", INDENT, "");
wt_format(w, "%*sdef deserialize(cls, buf: bytes) -> Tuple['Message', int]:\n", INDENT, "");
wt_format(w, "%*smagic_start, tag = unpack('>QH', buf[0:10])\n", INDENT * 2, "");
wt_format(w, "%*sif magic_start != MSG_MAGIC_START:\n", INDENT * 2, "");
wt_format(w, "%*sraise ValueError\n", INDENT * 3, "");
for (size_t i = 0; i < msgs.messages.len; i++) {
if (i == 0) {
wt_format(w, "%*sif tag == 0:\n", INDENT * 2, "");
} else {
wt_format(w, "%*selif tag == %lu:\n", INDENT * 2, "", i);
}
StringSlice name = msgs.messages.data[i].name;
wt_format(w, "%*sreturn %s%.*s._deserialize(buf)\n", INDENT * 3, "", prefix, name.len, name.ptr);
}
wt_format(w, "%*selse:\n", INDENT * 2, "");
wt_format(w, "%*sraise ValueError\n", INDENT * 3, "");
for (size_t i = 0; i < msgs.messages.len; i++) {
define_message(w, prefix, i, p->layouts, msgs.messages.data[i], msgs.version);
}
free(prefix);
}
void codegen_python(Writer *source, Program *p) {
wt_format(
source,
"# generated file\n"
"from dataclasses import dataclass\n"
"from typing import List, Tuple\n"
"from abc import ABC, abstractmethod\n"
"from struct import pack, unpack\n"
"\n"
"MSG_MAGIC_START = 0x%016lX\n"
"MSG_MAGIC_END = 0x%016lX\n"
"\n",
MSG_MAGIC_START,
MSG_MAGIC_END
);
define_struct_classes(source, p);
for (size_t i = 0; i < p->messages.len; i++) {
define_messages(source, p->messages.data[i], p);
}
}