+ with fakefilefactory(content=text) as draft_f:
+ tree = convert_markdown_to_html(
+ draft_f,
+ filefactory=fakefilefactory,
+ related_to_html_only=True,
+ )
+ assert tree.subtype == "alternative"
+ assert tree.children[1].subtype == "relative"
+ assert tree.children[1].children[1].subtype == "png"
+ written = fakefilefactory.pop()
+ assert tree.children[1].children[1].path == written[0]
+ assert b"PNG" in written[1].read()
+
+ @pytest.mark.converter
+ def test_converter_tree_inline_image_cid(
+ self, const1, fakefilefactory
+ ):
+ text = f"![inline base64 image](cid:{const1})"
+ with fakefilefactory(content=text) as draft_f:
+ tree = convert_markdown_to_html(
+ draft_f,
+ filefactory=fakefilefactory,
+ related_to_html_only=False,
+ )
+ assert len(tree.children) == 2
+ assert tree.children[0].cid != const1
+ assert tree.children[0].type != "image"
+ assert tree.children[1].cid != const1
+ assert tree.children[1].type != "image"
+
+ @pytest.fixture
+ def fakefilefactory(self):
+ return FakeFileFactory()
+
+ @pytest.mark.imgcoll
+ def test_inline_image_collection(
+ self, test_png, const1, const2, fakefilefactory
+ ):
+ test_images = {test_png: InlineImageInfo(cid=const1, desc=const2)}
+ relparts = collect_inline_images(
+ test_images, filefactory=fakefilefactory
+ )
+
+ written = fakefilefactory.pop()
+ assert b"PNG" in written[1].read()
+
+ assert relparts[0].subtype == "png"
+ assert relparts[0].path == written[0]
+ assert relparts[0].cid == const1
+ assert const2 in relparts[0].desc
+
+ if _PYNLINER:
+
+ @pytest.mark.styling
+ def test_apply_stylesheet(self):
+ html = "<p>Hello, world!</p>"
+ css = "p { color:red }"
+ out = apply_styling(html, css)
+ assert 'p style="color' in out
+
+ @pytest.mark.styling
+ def test_apply_no_stylesheet(self, const1):
+ out = apply_styling(const1, None)
+
+ @pytest.mark.massage
+ @pytest.mark.styling
+ def test_massage_styling_to_converter(self):
+ css = "p { color:red }"
+ css_applied = []
+
+ def converter(draft_f, css_f, **kwargs):
+ css = css_f.read()
+ css_applied.append(css)
+ return Part("text", "plain", draft_f.path, orig=True)
+
+ with (
+ File() as draft_f,
+ File(mode="w") as cmd_f,
+ File(content=css) as css_f
+ ):
+ do_massage(
+ draft_f=draft_f,
+ cmd_f=cmd_f,
+ css_f=css_f,
+ converter=converter,
+ )
+ assert css_applied[0] == css
+
+ @pytest.mark.converter
+ @pytest.mark.styling
+ def test_converter_apply_styles(
+ self, const1, monkeypatch, fakepath, fakefilefactory
+ ):
+ css = "p { color:red }"
+ with (
+ monkeypatch.context() as m,
+ fakefilefactory(fakepath, content=const1) as draft_f,
+ fakefilefactory(content=css) as css_f,
+ ):
+ m.setattr(
+ markdown.Markdown,
+ "convert",
+ lambda s, t: f"<p>{t}</p>",
+ )
+ convert_markdown_to_html(
+ draft_f, css_f=css_f, filefactory=fakefilefactory
+ )
+ assert re.search(
+ r"color:.*red",
+ fakefilefactory[fakepath.with_suffix(".html")].read(),
+ )
+
+ if _PYGMENTS_CSS:
+
+ @pytest.mark.styling
+ def test_apply_stylesheet_pygments(self):
+ html = (
+ f'<div class="{_CODEHILITE_CLASS}">'
+ "<pre>def foo():\n return</pre></div>"
+ )
+ out = apply_styling(html, _PYGMENTS_CSS)
+ assert f'{_CODEHILITE_CLASS}" style="' in out
+
+ @pytest.mark.sig
+ def test_signature_extraction_no_signature(self, const1):
+ assert (const1, None, None) == extract_signature(const1)
+
+ @pytest.mark.sig
+ def test_signature_extraction_just_text(self, const1, const2):
+ origtext, textsig, htmlsig = extract_signature(
+ f"{const1}{EMAIL_SIG_SEP}{const2}"
+ )
+ assert origtext == const1
+ assert textsig == const2
+ assert htmlsig is None
+
+ @pytest.mark.sig
+ def test_signature_extraction_html(
+ self, fakepath, fakefilefactory, const1, const2
+ ):
+ sigconst = "HTML signature from {path} but as a string"
+ sig = f'<div id="signature">{sigconst.format(path=fakepath)}</div>'
+
+ sig_f = fakefilefactory(fakepath, content=sig)
+
+ origtext, textsig, htmlsig = extract_signature(
+ f"{const1}{EMAIL_SIG_SEP}{HTML_SIG_MARKER} {fakepath}\n{const2}",
+ filefactory=fakefilefactory,
+ )
+ assert origtext == const1
+ assert textsig == const2
+ assert htmlsig == sigconst.format(path=fakepath)
+
+ @pytest.mark.sig
+ def test_signature_extraction_file_not_found(self, fakepath, const1):
+ with pytest.raises(FileNotFoundError):
+ origtext, textsig, htmlsig = extract_signature(
+ f"{const1}{EMAIL_SIG_SEP}{HTML_SIG_MARKER}{fakepath}\n{const1}"
+ )
+
+ @pytest.mark.imgproc
+ def test_image_registry(self, const1):
+ reg = ImageRegistry()
+ cid = reg.register(const1)
+ assert "@" in cid
+ assert not cid.startswith("<")
+ assert not cid.endswith(">")
+ assert const1 in reg
+
+ @pytest.mark.imgproc
+ def test_image_registry_file_uri(self, const1):
+ reg = ImageRegistry()
+ reg.register("/some/path")
+ for path in reg:
+ assert path.startswith("file://")
+ break
+
+ @pytest.mark.converter
+ @pytest.mark.sig
+ def test_converter_signature_handling(
+ self, fakepath, fakefilefactory, monkeypatch
+ ):
+ mailparts = (
+ "This is the mail body\n",
+ f"{EMAIL_SIG_SEP}",
+ "This is a plain-text signature only",
+ )
+
+ with (
+ fakefilefactory(
+ fakepath, content="".join(mailparts)
+ ) as draft_f,
+ monkeypatch.context() as m,
+ ):
+ m.setattr(markdown.Markdown, "convert", lambda s, t: t)
+ convert_markdown_to_html(draft_f, filefactory=fakefilefactory)
+
+ soup = bs4.BeautifulSoup(
+ fakefilefactory[fakepath.with_suffix(".html")].read(),
+ "html.parser",
+ )
+ body = soup.body.contents
+
+ assert mailparts[0] in body.pop(0)
+
+ sig = soup.select_one("#signature")
+ assert sig == body.pop(0)
+
+ sep = sig.select_one("span.sig_separator")
+ assert sep == sig.contents[0]
+ assert f"\n{sep.text}\n" == EMAIL_SIG_SEP
+
+ assert mailparts[2] in sig.contents[1]
+
+ @pytest.mark.converter
+ @pytest.mark.sig
+ def test_converter_signature_handling_htmlsig(
+ self, fakepath, fakepath2, fakefilefactory, monkeypatch
+ ):
+ mailparts = (
+ "This is the mail body",
+ f"{EMAIL_SIG_SEP}",
+ f"{HTML_SIG_MARKER}{fakepath2}\n",
+ "This is the plain-text version",
+ )
+ htmlsig = "HTML Signature from {path} but as a string"
+ html = (
+ f'<div id="signature"><p>{htmlsig.format(path=fakepath2)}</p></div>'