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ZipponDB/src/entityWriter.zig

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const std = @import("std");
const utils = @import("utils.zig");
const zid = @import("ZipponData");
const AdditionalData = @import("dataStructure/additionalData.zig").AdditionalData;
const JsonString = @import("dataStructure/relationMap.zig").JsonString;
const dtype = @import("dtype");
const DataType = dtype.DataType;
const DateTime = dtype.DateTime;
const UUID = dtype.UUID;
const ZipponError = @import("error").ZipponError;
pub fn writeEntityTable(
writer: anytype,
row: []zid.Data,
additional_data: AdditionalData,
data_types: []const DataType,
) !void {
try writer.writeAll("| ");
for (additional_data.childrens.items) |member| {
try writeValue(writer, row[member.index], data_types[member.index]);
try writer.writeAll(" \t| ");
}
try writer.writeByte('\n');
}
pub fn writeHeaderCsv(
writer: anytype,
members: [][]const u8,
delimiter: u8,
) !void {
for (members, 0..) |member, i| {
try writer.writeAll(member);
if (i < members.len - 1) try writer.writeByte(delimiter);
}
try writer.writeByte('\n');
}
pub fn writeEntityCsv( // FIXME: I think if one value str have a \n this will broke. I need to use like """
writer: anytype,
row: []zid.Data,
data_types: []const DataType,
delimiter: u8,
) !void {
for (0..row.len) |i| {
try writeValue(writer, row[i], data_types[i]);
if (i < row.len - 1) try writer.writeByte(delimiter);
}
try writer.writeByte('\n');
}
pub fn writeEntityJSON(
writer: anytype,
row: []zid.Data,
additional_data: AdditionalData,
data_types: []const DataType,
) !void {
try writer.writeByte('{');
for (additional_data.childrens.items) |member| {
try writer.print("{s}: ", .{member.name});
try writeValue(writer, row[member.index], data_types[member.index]);
try writer.writeAll(", ");
}
try writer.writeAll("}, ");
}
fn writeValue(writer: anytype, value: zid.Data, data_type: DataType) !void {
switch (value) {
.Float => |v| try writer.print("{d}", .{v}),
.Int => |v| try writer.print("{d}", .{v}),
.Str => |v| try writer.print("\"{s}\"", .{v}),
.UUID => |v| {
if (data_type == .self) {
try writer.print("\"{s}\"", .{UUID.format_bytes(v)});
return;
}
const uuid = try UUID.parse("00000000-0000-0000-0000-000000000000"); // Maybe pass that comptime to prevent parsing it everytime
if (!std.meta.eql(v, uuid.bytes)) {
try writer.print("{{|<{s}>|}}", .{v});
} else {
try writer.print("{{}}", .{});
}
},
.Bool => |v| try writer.print("{any}", .{v}),
.Unix => |v| {
const datetime = DateTime.initUnix(v);
try writer.writeByte('"');
switch (data_type) {
.date => try datetime.format("YYYY/MM/DD", writer),
.time => try datetime.format("HH:mm:ss.SSSS", writer),
.datetime => try datetime.format("YYYY/MM/DD-HH:mm:ss.SSSS", writer),
else => unreachable,
}
try writer.writeByte('"');
},
.IntArray, .FloatArray, .StrArray, .UUIDArray, .BoolArray, .UnixArray => try writeArray(writer, value, data_type),
}
}
fn writeArray(writer: anytype, data: zid.Data, data_type: DataType) ZipponError!void {
writer.writeByte('[') catch return ZipponError.WriteError;
var iter = zid.ArrayIterator.init(data) catch return ZipponError.ZipponDataError;
switch (data) {
.IntArray => while (iter.next()) |v| writer.print("{d}, ", .{v.Int}) catch return ZipponError.WriteError,
.FloatArray => while (iter.next()) |v| writer.print("{d}", .{v.Float}) catch return ZipponError.WriteError,
.StrArray => while (iter.next()) |v| writer.print("\"{s}\"", .{v.Str}) catch return ZipponError.WriteError,
.UUIDArray => while (iter.next()) |v| writer.print("{{|<{s}>|}},", .{v.UUID}) catch return ZipponError.WriteError,
.BoolArray => while (iter.next()) |v| writer.print("{any}", .{v.Bool}) catch return ZipponError.WriteError,
.UnixArray => while (iter.next()) |v| {
const datetime = DateTime.initUnix(v.Unix);
writer.writeByte('"') catch return ZipponError.WriteError;
switch (data_type) {
.date => datetime.format("YYYY/MM/DD", writer) catch return ZipponError.WriteError,
.time => datetime.format("HH:mm:ss.SSSS", writer) catch return ZipponError.WriteError,
.datetime => datetime.format("YYYY/MM/DD-HH:mm:ss.SSSS", writer) catch return ZipponError.WriteError,
else => unreachable,
}
writer.writeAll("\", ") catch return ZipponError.WriteError;
},
else => unreachable,
}
writer.writeByte(']') catch return ZipponError.WriteError;
}
/// Take a string in the JSON format and look for {|<[16]u8>|}, then will look into the map and check if it can find this UUID
/// If it find it, it ill replace the {|<[16]u8>|} will the value
pub fn updateWithRelation(writer: anytype, input: []const u8, map: std.AutoHashMap([16]u8, JsonString)) ZipponError!void {
var uuid_bytes: [16]u8 = undefined;
var start: usize = 0;
while (std.mem.indexOf(u8, input[start..], "{|<")) |pos| {
const pattern_start = start + pos + 3;
const pattern_end = pattern_start + 16;
// Write the text before the pattern
writer.writeAll(input[start .. pattern_start - 3]) catch return ZipponError.WriteError;
if (input[pattern_start - 4] == '[') {
start = try updateArray(writer, input, map, pattern_start - 3);
continue;
}
@memcpy(uuid_bytes[0..], input[pattern_start..pattern_end]);
if (map.get(uuid_bytes)) |json_string| {
writer.writeAll(json_string.slice) catch return ZipponError.WriteError;
} else {
writer.writeAll(input[pattern_start - 3 .. pattern_end + 3]) catch return ZipponError.WriteError;
}
start = pattern_end + 5;
}
// Write any remaining text
writer.writeAll(input[start..]) catch return ZipponError.WriteError;
}
fn updateArray(writer: anytype, input: []const u8, map: std.AutoHashMap([16]u8, JsonString), origin: usize) ZipponError!usize {
var uuid_bytes: [16]u8 = undefined;
var start = origin;
while (input.len > start + 23 and std.mem.eql(u8, input[start .. start + 3], "{|<") and std.mem.eql(u8, input[start + 19 .. start + 23], ">|},")) : (start += 23) {
@memcpy(uuid_bytes[0..], input[start + 3 .. start + 19]);
if (map.get(uuid_bytes)) |json_string| {
writer.writeAll(json_string.slice) catch return ZipponError.WriteError;
} else {
writer.writeAll(input[start .. start + 23]) catch return ZipponError.WriteError;
}
}
return start;
}
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