""" Module for formatting output data in HTML. """ from __future__ import annotations from textwrap import dedent from typing import ( Any, Final, Hashable, Iterable, Mapping, cast, ) from pandas._config import get_option from pandas._libs import lib from pandas import ( MultiIndex, option_context, ) from pandas.io.common import is_url from pandas.io.formats.format import ( DataFrameFormatter, get_level_lengths, ) from pandas.io.formats.printing import pprint_thing class HTMLFormatter: """ Internal class for formatting output data in html. This class is intended for shared functionality between DataFrame.to_html() and DataFrame._repr_html_(). Any logic in common with other output formatting methods should ideally be inherited from classes in format.py and this class responsible for only producing html markup. """ indent_delta: Final = 2 def __init__( self, formatter: DataFrameFormatter, classes: str | list[str] | tuple[str, ...] | None = None, border: int | bool | None = None, table_id: str | None = None, render_links: bool = False, ) -> None: self.fmt = formatter self.classes = classes self.frame = self.fmt.frame self.columns = self.fmt.tr_frame.columns self.elements: list[str] = [] self.bold_rows = self.fmt.bold_rows self.escape = self.fmt.escape self.show_dimensions = self.fmt.show_dimensions if border is None or border is True: border = cast(int, get_option("display.html.border")) elif not border: border = None self.border = border self.table_id = table_id self.render_links = render_links self.col_space = { column: f"{value}px" if isinstance(value, int) else value for column, value in self.fmt.col_space.items() } def to_string(self) -> str: lines = self.render() if any(isinstance(x, str) for x in lines): lines = [str(x) for x in lines] return "\n".join(lines) def render(self) -> list[str]: self._write_table() if self.should_show_dimensions: by = chr(215) # × self.write( f"

{len(self.frame)} rows {by} {len(self.frame.columns)} columns

" ) return self.elements @property def should_show_dimensions(self) -> bool: return self.fmt.should_show_dimensions @property def show_row_idx_names(self) -> bool: return self.fmt.show_row_idx_names @property def show_col_idx_names(self) -> bool: return self.fmt.show_col_idx_names @property def row_levels(self) -> int: if self.fmt.index: # showing (row) index return self.frame.index.nlevels elif self.show_col_idx_names: # see gh-22579 # Column misalignment also occurs for # a standard index when the columns index is named. # If the row index is not displayed a column of # blank cells need to be included before the DataFrame values. return 1 # not showing (row) index return 0 def _get_columns_formatted_values(self) -> Iterable: return self.columns @property def is_truncated(self) -> bool: return self.fmt.is_truncated @property def ncols(self) -> int: return len(self.fmt.tr_frame.columns) def write(self, s: Any, indent: int = 0) -> None: rs = pprint_thing(s) self.elements.append(" " * indent + rs) def write_th( self, s: Any, header: bool = False, indent: int = 0, tags: str | None = None ) -> None: """ Method for writing a formatted cell. If col_space is set on the formatter then that is used for the value of min-width. Parameters ---------- s : object The data to be written inside the cell. header : bool, default False Set to True if the is for use inside . This will cause min-width to be set if there is one. indent : int, default 0 The indentation level of the cell. tags : str, default None Tags to include in the cell. Returns ------- A written cell. """ col_space = self.col_space.get(s, None) if header and col_space is not None: tags = tags or "" tags += f'style="min-width: {col_space};"' self._write_cell(s, kind="th", indent=indent, tags=tags) def write_td(self, s: Any, indent: int = 0, tags: str | None = None) -> None: self._write_cell(s, kind="td", indent=indent, tags=tags) def _write_cell( self, s: Any, kind: str = "td", indent: int = 0, tags: str | None = None ) -> None: if tags is not None: start_tag = f"<{kind} {tags}>" else: start_tag = f"<{kind}>" if self.escape: # escape & first to prevent double escaping of & esc = {"&": r"&", "<": r"<", ">": r">"} else: esc = {} rs = pprint_thing(s, escape_chars=esc).strip() if self.render_links and is_url(rs): rs_unescaped = pprint_thing(s, escape_chars={}).strip() start_tag += f'' end_a = "" else: end_a = "" self.write(f"{start_tag}{rs}{end_a}", indent) def write_tr( self, line: Iterable, indent: int = 0, indent_delta: int = 0, header: bool = False, align: str | None = None, tags: dict[int, str] | None = None, nindex_levels: int = 0, ) -> None: if tags is None: tags = {} if align is None: self.write("", indent) else: self.write(f'', indent) indent += indent_delta for i, s in enumerate(line): val_tag = tags.get(i, None) if header or (self.bold_rows and i < nindex_levels): self.write_th(s, indent=indent, header=header, tags=val_tag) else: self.write_td(s, indent, tags=val_tag) indent -= indent_delta self.write("", indent) def _write_table(self, indent: int = 0) -> None: _classes = ["dataframe"] # Default class. use_mathjax = get_option("display.html.use_mathjax") if not use_mathjax: _classes.append("tex2jax_ignore") if self.classes is not None: if isinstance(self.classes, str): self.classes = self.classes.split() if not isinstance(self.classes, (list, tuple)): raise TypeError( "classes must be a string, list, " f"or tuple, not {type(self.classes)}" ) _classes.extend(self.classes) if self.table_id is None: id_section = "" else: id_section = f' id="{self.table_id}"' if self.border is None: border_attr = "" else: border_attr = f' border="{self.border}"' self.write( f'', indent, ) if self.fmt.header or self.show_row_idx_names: self._write_header(indent + self.indent_delta) self._write_body(indent + self.indent_delta) self.write("", indent) def _write_col_header(self, indent: int) -> None: row: list[Hashable] is_truncated_horizontally = self.fmt.is_truncated_horizontally if isinstance(self.columns, MultiIndex): template = 'colspan="{span:d}" halign="left"' sentinel: lib.NoDefault | bool if self.fmt.sparsify: # GH3547 sentinel = lib.no_default else: sentinel = False levels = self.columns.format(sparsify=sentinel, adjoin=False, names=False) level_lengths = get_level_lengths(levels, sentinel) inner_lvl = len(level_lengths) - 1 for lnum, (records, values) in enumerate(zip(level_lengths, levels)): if is_truncated_horizontally: # modify the header lines ins_col = self.fmt.tr_col_num if self.fmt.sparsify: recs_new = {} # Increment tags after ... col. for tag, span in list(records.items()): if tag >= ins_col: recs_new[tag + 1] = span elif tag + span > ins_col: recs_new[tag] = span + 1 if lnum == inner_lvl: values = ( values[:ins_col] + ("...",) + values[ins_col:] ) else: # sparse col headers do not receive a ... values = ( values[:ins_col] + (values[ins_col - 1],) + values[ins_col:] ) else: recs_new[tag] = span # if ins_col lies between tags, all col headers # get ... if tag + span == ins_col: recs_new[ins_col] = 1 values = values[:ins_col] + ("...",) + values[ins_col:] records = recs_new inner_lvl = len(level_lengths) - 1 if lnum == inner_lvl: records[ins_col] = 1 else: recs_new = {} for tag, span in list(records.items()): if tag >= ins_col: recs_new[tag + 1] = span else: recs_new[tag] = span recs_new[ins_col] = 1 records = recs_new values = values[:ins_col] + ["..."] + values[ins_col:] # see gh-22579 # Column Offset Bug with to_html(index=False) with # MultiIndex Columns and Index. # Initially fill row with blank cells before column names. # TODO: Refactor to remove code duplication with code # block below for standard columns index. row = [""] * (self.row_levels - 1) if self.fmt.index or self.show_col_idx_names: # see gh-22747 # If to_html(index_names=False) do not show columns # index names. # TODO: Refactor to use _get_column_name_list from # DataFrameFormatter class and create a # _get_formatted_column_labels function for code # parity with DataFrameFormatter class. if self.fmt.show_index_names: name = self.columns.names[lnum] row.append(pprint_thing(name or "")) else: row.append("") tags = {} j = len(row) for i, v in enumerate(values): if i in records: if records[i] > 1: tags[j] = template.format(span=records[i]) else: continue j += 1 row.append(v) self.write_tr(row, indent, self.indent_delta, tags=tags, header=True) else: # see gh-22579 # Column misalignment also occurs for # a standard index when the columns index is named. # Initially fill row with blank cells before column names. # TODO: Refactor to remove code duplication with code block # above for columns MultiIndex. row = [""] * (self.row_levels - 1) if self.fmt.index or self.show_col_idx_names: # see gh-22747 # If to_html(index_names=False) do not show columns # index names. # TODO: Refactor to use _get_column_name_list from # DataFrameFormatter class. if self.fmt.show_index_names: row.append(self.columns.name or "") else: row.append("") row.extend(self._get_columns_formatted_values()) align = self.fmt.justify if is_truncated_horizontally: ins_col = self.row_levels + self.fmt.tr_col_num row.insert(ins_col, "...") self.write_tr(row, indent, self.indent_delta, header=True, align=align) def _write_row_header(self, indent: int) -> None: is_truncated_horizontally = self.fmt.is_truncated_horizontally row = [x if x is not None else "" for x in self.frame.index.names] + [""] * ( self.ncols + (1 if is_truncated_horizontally else 0) ) self.write_tr(row, indent, self.indent_delta, header=True) def _write_header(self, indent: int) -> None: self.write("", indent) if self.fmt.header: self._write_col_header(indent + self.indent_delta) if self.show_row_idx_names: self._write_row_header(indent + self.indent_delta) self.write("", indent) def _get_formatted_values(self) -> dict[int, list[str]]: with option_context("display.max_colwidth", None): fmt_values = {i: self.fmt.format_col(i) for i in range(self.ncols)} return fmt_values def _write_body(self, indent: int) -> None: self.write("", indent) fmt_values = self._get_formatted_values() # write values if self.fmt.index and isinstance(self.frame.index, MultiIndex): self._write_hierarchical_rows(fmt_values, indent + self.indent_delta) else: self._write_regular_rows(fmt_values, indent + self.indent_delta) self.write("", indent) def _write_regular_rows( self, fmt_values: Mapping[int, list[str]], indent: int ) -> None: is_truncated_horizontally = self.fmt.is_truncated_horizontally is_truncated_vertically = self.fmt.is_truncated_vertically nrows = len(self.fmt.tr_frame) if self.fmt.index: fmt = self.fmt._get_formatter("__index__") if fmt is not None: index_values = self.fmt.tr_frame.index.map(fmt) else: index_values = self.fmt.tr_frame.index.format() row: list[str] = [] for i in range(nrows): if is_truncated_vertically and i == (self.fmt.tr_row_num): str_sep_row = ["..."] * len(row) self.write_tr( str_sep_row, indent, self.indent_delta, tags=None, nindex_levels=self.row_levels, ) row = [] if self.fmt.index: row.append(index_values[i]) # see gh-22579 # Column misalignment also occurs for # a standard index when the columns index is named. # Add blank cell before data cells. elif self.show_col_idx_names: row.append("") row.extend(fmt_values[j][i] for j in range(self.ncols)) if is_truncated_horizontally: dot_col_ix = self.fmt.tr_col_num + self.row_levels row.insert(dot_col_ix, "...") self.write_tr( row, indent, self.indent_delta, tags=None, nindex_levels=self.row_levels ) def _write_hierarchical_rows( self, fmt_values: Mapping[int, list[str]], indent: int ) -> None: template = 'rowspan="{span}" valign="top"' is_truncated_horizontally = self.fmt.is_truncated_horizontally is_truncated_vertically = self.fmt.is_truncated_vertically frame = self.fmt.tr_frame nrows = len(frame) assert isinstance(frame.index, MultiIndex) idx_values = frame.index.format(sparsify=False, adjoin=False, names=False) idx_values = list(zip(*idx_values)) if self.fmt.sparsify: # GH3547 sentinel = lib.no_default levels = frame.index.format(sparsify=sentinel, adjoin=False, names=False) level_lengths = get_level_lengths(levels, sentinel) inner_lvl = len(level_lengths) - 1 if is_truncated_vertically: # Insert ... row and adjust idx_values and # level_lengths to take this into account. ins_row = self.fmt.tr_row_num inserted = False for lnum, records in enumerate(level_lengths): rec_new = {} for tag, span in list(records.items()): if tag >= ins_row: rec_new[tag + 1] = span elif tag + span > ins_row: rec_new[tag] = span + 1 # GH 14882 - Make sure insertion done once if not inserted: dot_row = list(idx_values[ins_row - 1]) dot_row[-1] = "..." idx_values.insert(ins_row, tuple(dot_row)) inserted = True else: dot_row = list(idx_values[ins_row]) dot_row[inner_lvl - lnum] = "..." idx_values[ins_row] = tuple(dot_row) else: rec_new[tag] = span # If ins_row lies between tags, all cols idx cols # receive ... if tag + span == ins_row: rec_new[ins_row] = 1 if lnum == 0: idx_values.insert( ins_row, tuple(["..."] * len(level_lengths)) ) # GH 14882 - Place ... in correct level elif inserted: dot_row = list(idx_values[ins_row]) dot_row[inner_lvl - lnum] = "..." idx_values[ins_row] = tuple(dot_row) level_lengths[lnum] = rec_new level_lengths[inner_lvl][ins_row] = 1 for ix_col in fmt_values: fmt_values[ix_col].insert(ins_row, "...") nrows += 1 for i in range(nrows): row = [] tags = {} sparse_offset = 0 j = 0 for records, v in zip(level_lengths, idx_values[i]): if i in records: if records[i] > 1: tags[j] = template.format(span=records[i]) else: sparse_offset += 1 continue j += 1 row.append(v) row.extend(fmt_values[j][i] for j in range(self.ncols)) if is_truncated_horizontally: row.insert( self.row_levels - sparse_offset + self.fmt.tr_col_num, "..." ) self.write_tr( row, indent, self.indent_delta, tags=tags, nindex_levels=len(levels) - sparse_offset, ) else: row = [] for i in range(len(frame)): if is_truncated_vertically and i == (self.fmt.tr_row_num): str_sep_row = ["..."] * len(row) self.write_tr( str_sep_row, indent, self.indent_delta, tags=None, nindex_levels=self.row_levels, ) idx_values = list( zip(*frame.index.format(sparsify=False, adjoin=False, names=False)) ) row = [] row.extend(idx_values[i]) row.extend(fmt_values[j][i] for j in range(self.ncols)) if is_truncated_horizontally: row.insert(self.row_levels + self.fmt.tr_col_num, "...") self.write_tr( row, indent, self.indent_delta, tags=None, nindex_levels=frame.index.nlevels, ) class NotebookFormatter(HTMLFormatter): """ Internal class for formatting output data in html for display in Jupyter Notebooks. This class is intended for functionality specific to DataFrame._repr_html_() and DataFrame.to_html(notebook=True) """ def _get_formatted_values(self) -> dict[int, list[str]]: return {i: self.fmt.format_col(i) for i in range(self.ncols)} def _get_columns_formatted_values(self) -> list[str]: return self.columns.format() def write_style(self) -> None: # We use the "scoped" attribute here so that the desired # style properties for the data frame are not then applied # throughout the entire notebook. template_first = """\ """ template_select = """\ .dataframe %s { %s: %s; }""" element_props = [ ("tbody tr th:only-of-type", "vertical-align", "middle"), ("tbody tr th", "vertical-align", "top"), ] if isinstance(self.columns, MultiIndex): element_props.append(("thead tr th", "text-align", "left")) if self.show_row_idx_names: element_props.append( ("thead tr:last-of-type th", "text-align", "right") ) else: element_props.append(("thead th", "text-align", "right")) template_mid = "\n\n".join(map(lambda t: template_select % t, element_props)) template = dedent("\n".join((template_first, template_mid, template_last))) self.write(template) def render(self) -> list[str]: self.write("
") self.write_style() super().render() self.write("
") return self.elements