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const std = @import("std");
const Allocator = std.mem.Allocator;
const Lexed = @import("lexer/Lexed.zig");
const Lexer = @import("lexer/Lexer.zig");
const Element = @import("dom/Element.zig");
const parser = @import("parser.zig");
const link = @import("link.zig");
const testing = @import("testing.zig");
const doTest = testing.do;
const doTestError = testing.doError;
pub const Error = error{ ModifierNotClosed, IllegalPlacement } || Lexer.Error;
pub fn parse(alloc: Allocator, l: *Lexer) Error!Element {
var content = Element.initEmpty(alloc);
errdefer content.deinit();
var v = (try l.next(alloc)).?;
defer v.deinit();
switch (v.kind) {
.literal => {
const el = try Element.initLitEscaped(alloc, v.content.items);
try content.appendContent(el);
},
.bold => try content.appendContent(try parseModifier(alloc, l, .bold, "b")),
.italic => try content.appendContent(try parseModifier(alloc, l, .italic, "em")),
.code => try content.appendContent(try parseModifier(alloc, l, .code, "code")),
else => return Error.IllegalPlacement,
}
return content;
}
fn parseModifier(alloc: Allocator, l: *Lexer, knd: Lexed.Kind, tag: []const u8) Error!Element {
var el = try Element.init(alloc, .content, tag);
errdefer el.deinit();
while (l.nextKind()) |it| {
if (it == knd) {
// consuming the finisher
var v = (try l.next(alloc)).?;
v.deinit();
return el;
}
if (it.isDelimiter()) return Error.ModifierNotClosed;
try el.appendContent(try parse(alloc, l));
}
return Error.ModifierNotClosed;
}
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