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#include "prism.h"
// We optionally support serializing to a binary string. For systems that don't
// want or need this functionality, it can be turned off with the
// PRISM_EXCLUDE_SERIALIZATION define.
#ifndef PRISM_EXCLUDE_SERIALIZATION
#include <stdio.h>
static inline uint32_t
pm_ptrdifft_to_u32(ptrdiff_t value) {
assert(value >= 0 && ((unsigned long) value) < UINT32_MAX);
return (uint32_t) value;
}
static inline uint32_t
pm_sizet_to_u32(size_t value) {
assert(value < UINT32_MAX);
return (uint32_t) value;
}
static void
pm_serialize_location(const pm_parser_t *parser, const pm_location_t *location, pm_buffer_t *buffer) {
assert(location->start);
assert(location->end);
assert(location->start <= location->end);
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(location->start - parser->start));
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(location->end - location->start));
}
static void
pm_serialize_string(const pm_parser_t *parser, const pm_string_t *string, pm_buffer_t *buffer) {
switch (string->type) {
case PM_STRING_SHARED: {
pm_buffer_append_byte(buffer, 1);
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(pm_string_source(string) - parser->start));
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(pm_string_length(string)));
break;
}
case PM_STRING_OWNED:
case PM_STRING_CONSTANT: {
uint32_t length = pm_sizet_to_u32(pm_string_length(string));
pm_buffer_append_byte(buffer, 2);
pm_buffer_append_varuint(buffer, length);
pm_buffer_append_bytes(buffer, pm_string_source(string), length);
break;
}
#ifdef PRISM_HAS_MMAP
case PM_STRING_MAPPED:
assert(false && "Cannot serialize mapped strings.");
break;
#endif
}
}
static void
pm_serialize_integer(const pm_integer_t *integer, pm_buffer_t *buffer) {
pm_buffer_append_byte(buffer, integer->negative ? 1 : 0);
if (integer->values == NULL) {
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(1));
pm_buffer_append_varuint(buffer, integer->value);
} else {
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(integer->length));
for (size_t i = 0; i < integer->length; i++) {
pm_buffer_append_varuint(buffer, integer->values[i]);
}
}
}
static void
pm_serialize_node(pm_parser_t *parser, pm_node_t *node, pm_buffer_t *buffer) {
pm_buffer_append_byte(buffer, (uint8_t) PM_NODE_TYPE(node));
size_t offset = buffer->length;
pm_serialize_location(parser, &node->location, buffer);
switch (PM_NODE_TYPE(node)) {
// We do not need to serialize a ScopeNode ever as
// it is not part of the AST
case PM_SCOPE_NODE:
return;
<%- nodes.each do |node| -%>
case <%= node.type %>: {
<%- if node.needs_serialized_length? -%>
// serialize length
// encoding of location u32s make us need to save this offset.
size_t length_offset = buffer->length;
pm_buffer_append_string(buffer, "\0\0\0\0", 4); /* consume 4 bytes, updated below */
<%- end -%>
<%- node.fields.each do |field| -%>
<%- case field -%>
<%- when Prism::Template::NodeField -%>
pm_serialize_node(parser, (pm_node_t *)((pm_<%= node.human %>_t *)node)-><%= field.name %>, buffer);
<%- when Prism::Template::OptionalNodeField -%>
if (((pm_<%= node.human %>_t *)node)-><%= field.name %> == NULL) {
pm_buffer_append_byte(buffer, 0);
} else {
pm_serialize_node(parser, (pm_node_t *)((pm_<%= node.human %>_t *)node)-><%= field.name %>, buffer);
}
<%- when Prism::Template::StringField -%>
pm_serialize_string(parser, &((pm_<%= node.human %>_t *)node)-><%= field.name %>, buffer);
<%- when Prism::Template::NodeListField -%>
uint32_t <%= field.name %>_size = pm_sizet_to_u32(((pm_<%= node.human %>_t *)node)-><%= field.name %>.size);
pm_buffer_append_varuint(buffer, <%= field.name %>_size);
for (uint32_t index = 0; index < <%= field.name %>_size; index++) {
pm_serialize_node(parser, (pm_node_t *) ((pm_<%= node.human %>_t *)node)-><%= field.name %>.nodes[index], buffer);
}
<%- when Prism::Template::ConstantField, Prism::Template::OptionalConstantField -%>
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(((pm_<%= node.human %>_t *)node)-><%= field.name %>));
<%- when Prism::Template::ConstantListField -%>
uint32_t <%= field.name %>_size = pm_sizet_to_u32(((pm_<%= node.human %>_t *)node)-><%= field.name %>.size);
pm_buffer_append_varuint(buffer, <%= field.name %>_size);
for (uint32_t index = 0; index < <%= field.name %>_size; index++) {
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(((pm_<%= node.human %>_t *)node)-><%= field.name %>.ids[index]));
}
<%- when Prism::Template::LocationField -%>
<%- if field.should_be_serialized? -%>
pm_serialize_location(parser, &((pm_<%= node.human %>_t *)node)-><%= field.name %>, buffer);
<%- end -%>
<%- when Prism::Template::OptionalLocationField -%>
<%- if field.should_be_serialized? -%>
if (((pm_<%= node.human %>_t *)node)-><%= field.name %>.start == NULL) {
pm_buffer_append_byte(buffer, 0);
} else {
pm_buffer_append_byte(buffer, 1);
pm_serialize_location(parser, &((pm_<%= node.human %>_t *)node)-><%= field.name %>, buffer);
}
<%- end -%>
<%- when Prism::Template::UInt8Field -%>
pm_buffer_append_byte(buffer, ((pm_<%= node.human %>_t *)node)-><%= field.name %>);
<%- when Prism::Template::UInt32Field -%>
pm_buffer_append_varuint(buffer, ((pm_<%= node.human %>_t *)node)-><%= field.name %>);
<%- when Prism::Template::FlagsField -%>
pm_buffer_append_varuint(buffer, (uint32_t)(node->flags & ~PM_NODE_FLAG_COMMON_MASK));
<%- when Prism::Template::IntegerField -%>
pm_serialize_integer(&((pm_<%= node.human %>_t *)node)-><%= field.name %>, buffer);
<%- when Prism::Template::DoubleField -%>
pm_buffer_append_double(buffer, ((pm_<%= node.human %>_t *)node)-><%= field.name %>);
<%- else -%>
<%- raise -%>
<%- end -%>
<%- end -%>
<%- if node.needs_serialized_length? -%>
// serialize length
uint32_t length = pm_sizet_to_u32(buffer->length - offset - sizeof(uint32_t));
memcpy(buffer->value + length_offset, &length, sizeof(uint32_t));
<%- end -%>
break;
}
<%- end -%>
}
}
static void
pm_serialize_newline_list(pm_newline_list_t *list, pm_buffer_t *buffer) {
uint32_t size = pm_sizet_to_u32(list->size);
pm_buffer_append_varuint(buffer, size);
for (uint32_t i = 0; i < size; i++) {
uint32_t offset = pm_sizet_to_u32(list->offsets[i]);
pm_buffer_append_varuint(buffer, offset);
}
}
static void
pm_serialize_comment(pm_parser_t *parser, pm_comment_t *comment, pm_buffer_t *buffer) {
// serialize type
pm_buffer_append_byte(buffer, (uint8_t) comment->type);
// serialize location
pm_serialize_location(parser, &comment->location, buffer);
}
/**
* Serialize the given list of comments to the given buffer.
*/
void
pm_serialize_comment_list(pm_parser_t *parser, pm_list_t *list, pm_buffer_t *buffer) {
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(pm_list_size(list)));
pm_comment_t *comment;
for (comment = (pm_comment_t *) list->head; comment != NULL; comment = (pm_comment_t *) comment->node.next) {
pm_serialize_comment(parser, comment, buffer);
}
}
static void
pm_serialize_magic_comment(pm_parser_t *parser, pm_magic_comment_t *magic_comment, pm_buffer_t *buffer) {
// serialize key location
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(magic_comment->key_start - parser->start));
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(magic_comment->key_length));
// serialize value location
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(magic_comment->value_start - parser->start));
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(magic_comment->value_length));
}
static void
pm_serialize_magic_comment_list(pm_parser_t *parser, pm_list_t *list, pm_buffer_t *buffer) {
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(pm_list_size(list)));
pm_magic_comment_t *magic_comment;
for (magic_comment = (pm_magic_comment_t *) list->head; magic_comment != NULL; magic_comment = (pm_magic_comment_t *) magic_comment->node.next) {
pm_serialize_magic_comment(parser, magic_comment, buffer);
}
}
static void
pm_serialize_data_loc(const pm_parser_t *parser, pm_buffer_t *buffer) {
if (parser->data_loc.end == NULL) {
pm_buffer_append_byte(buffer, 0);
} else {
pm_buffer_append_byte(buffer, 1);
pm_serialize_location(parser, &parser->data_loc, buffer);
}
}
static void
pm_serialize_diagnostic(pm_parser_t *parser, pm_diagnostic_t *diagnostic, pm_buffer_t *buffer) {
// serialize the type
pm_buffer_append_varuint(buffer, (uint32_t) diagnostic->diag_id);
// serialize message
size_t message_length = strlen(diagnostic->message);
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(message_length));
pm_buffer_append_string(buffer, diagnostic->message, message_length);
// serialize location
pm_serialize_location(parser, &diagnostic->location, buffer);
pm_buffer_append_byte(buffer, diagnostic->level);
}
static void
pm_serialize_diagnostic_list(pm_parser_t *parser, pm_list_t *list, pm_buffer_t *buffer) {
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(pm_list_size(list)));
pm_diagnostic_t *diagnostic;
for (diagnostic = (pm_diagnostic_t *) list->head; diagnostic != NULL; diagnostic = (pm_diagnostic_t *) diagnostic->node.next) {
pm_serialize_diagnostic(parser, diagnostic, buffer);
}
}
/**
* Serialize the name of the encoding to the buffer.
*/
void
pm_serialize_encoding(const pm_encoding_t *encoding, pm_buffer_t *buffer) {
size_t encoding_length = strlen(encoding->name);
pm_buffer_append_varuint(buffer, pm_sizet_to_u32(encoding_length));
pm_buffer_append_string(buffer, encoding->name, encoding_length);
}
static void
pm_serialize_metadata(pm_parser_t *parser, pm_buffer_t *buffer) {
pm_serialize_encoding(parser->encoding, buffer);
pm_buffer_append_varsint(buffer, parser->start_line);
pm_serialize_newline_list(&parser->newline_list, buffer);
<%- unless Prism::Template::SERIALIZE_ONLY_SEMANTICS_FIELDS -%>
pm_serialize_comment_list(parser, &parser->comment_list, buffer);
<%- end -%>
pm_serialize_magic_comment_list(parser, &parser->magic_comment_list, buffer);
pm_serialize_data_loc(parser, buffer);
pm_serialize_diagnostic_list(parser, &parser->error_list, buffer);
pm_serialize_diagnostic_list(parser, &parser->warning_list, buffer);
}
#line <%= __LINE__ + 1 %> "<%= File.basename(__FILE__) %>"
/**
* Serialize the metadata, nodes, and constant pool.
*/
void
pm_serialize_content(pm_parser_t *parser, pm_node_t *node, pm_buffer_t *buffer) {
pm_serialize_metadata(parser, buffer);
// Here we're going to leave space for the offset of the constant pool in
// the buffer.
size_t offset = buffer->length;
pm_buffer_append_zeroes(buffer, 4);
// Next, encode the length of the constant pool.
pm_buffer_append_varuint(buffer, parser->constant_pool.size);
// Now we're going to serialize the content of the node.
pm_serialize_node(parser, node, buffer);
// Now we're going to serialize the offset of the constant pool back where
// we left space for it.
uint32_t length = pm_sizet_to_u32(buffer->length);
memcpy(buffer->value + offset, &length, sizeof(uint32_t));
// Now we're going to serialize the constant pool.
offset = buffer->length;
pm_buffer_append_zeroes(buffer, parser->constant_pool.size * 8);
for (uint32_t index = 0; index < parser->constant_pool.capacity; index++) {
pm_constant_pool_bucket_t *bucket = &parser->constant_pool.buckets[index];
// If we find a constant at this index, serialize it at the correct
// index in the buffer.
if (bucket->id != 0) {
pm_constant_t *constant = &parser->constant_pool.constants[bucket->id - 1];
size_t buffer_offset = offset + ((((size_t)bucket->id) - 1) * 8);
if (bucket->type == PM_CONSTANT_POOL_BUCKET_OWNED || bucket->type == PM_CONSTANT_POOL_BUCKET_CONSTANT) {
// Since this is an owned or constant constant, we are going to
// write its contents into the buffer after the constant pool.
// So effectively in place of the source offset, we have a
// buffer offset. We will add a leading 1 to indicate that this
// is a buffer offset.
uint32_t content_offset = pm_sizet_to_u32(buffer->length);
uint32_t owned_mask = (uint32_t) (1 << 31);
assert(content_offset < owned_mask);
content_offset |= owned_mask;
memcpy(buffer->value + buffer_offset, &content_offset, 4);
pm_buffer_append_bytes(buffer, constant->start, constant->length);
} else {
// Since this is a shared constant, we are going to write its
// source offset directly into the buffer.
uint32_t source_offset = pm_ptrdifft_to_u32(constant->start - parser->start);
memcpy(buffer->value + buffer_offset, &source_offset, 4);
}
// Now we can write the length of the constant into the buffer.
uint32_t constant_length = pm_sizet_to_u32(constant->length);
memcpy(buffer->value + buffer_offset + 4, &constant_length, 4);
}
}
}
static void
serialize_token(void *data, pm_parser_t *parser, pm_token_t *token) {
pm_buffer_t *buffer = (pm_buffer_t *) data;
pm_buffer_append_varuint(buffer, token->type);
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(token->start - parser->start));
pm_buffer_append_varuint(buffer, pm_ptrdifft_to_u32(token->end - token->start));
pm_buffer_append_varuint(buffer, parser->lex_state);
}
/**
* Lex the given source and serialize to the given buffer.
*/
PRISM_EXPORTED_FUNCTION void
pm_serialize_lex(pm_buffer_t *buffer, const uint8_t *source, size_t size, const char *data) {
pm_options_t options = { 0 };
pm_options_read(&options, data);
pm_parser_t parser;
pm_parser_init(&parser, source, size, &options);
pm_lex_callback_t lex_callback = (pm_lex_callback_t) {
.data = (void *) buffer,
.callback = serialize_token,
};
parser.lex_callback = &lex_callback;
pm_node_t *node = pm_parse(&parser);
// Append 0 to mark end of tokens.
pm_buffer_append_byte(buffer, 0);
pm_serialize_metadata(&parser, buffer);
pm_node_destroy(&parser, node);
pm_parser_free(&parser);
pm_options_free(&options);
}
/**
* Parse and serialize both the AST and the tokens represented by the given
* source to the given buffer.
*/
PRISM_EXPORTED_FUNCTION void
pm_serialize_parse_lex(pm_buffer_t *buffer, const uint8_t *source, size_t size, const char *data) {
pm_options_t options = { 0 };
pm_options_read(&options, data);
pm_parser_t parser;
pm_parser_init(&parser, source, size, &options);
pm_lex_callback_t lex_callback = (pm_lex_callback_t) {
.data = (void *) buffer,
.callback = serialize_token,
};
parser.lex_callback = &lex_callback;
pm_node_t *node = pm_parse(&parser);
pm_buffer_append_byte(buffer, 0);
pm_serialize(&parser, node, buffer);
pm_node_destroy(&parser, node);
pm_parser_free(&parser);
pm_options_free(&options);
}
#endif
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