示例#1
0
    def _fill_rows_cols_sizes(self):
        cols, rows = self._cols, self._rows
        cols_sh, rows_sh = self._cols_sh, self._rows_sh
        cols_sh_min, rows_sh_min = self._cols_sh_min, self._rows_sh_min
        cols_sh_max, rows_sh_max = self._cols_sh_max, self._rows_sh_max
        self._cols_count = cols_count = [defaultdict(int) for _ in cols]
        # !! bottom-to-top, the opposite of the other attributes.
        self._rows_count = rows_count = [defaultdict(int) for _ in rows]

        # calculate minimum size for each columns and rows
        col_and_row_indices = self._col_and_row_indices
        has_bound_y = has_bound_x = False
        for i, opt in enumerate(self.view_opts):
            (shw, shh), (w, h) = opt['size_hint'], opt['size']
            shw_min, shh_min = opt['size_hint_min']
            shw_max, shh_max = opt['size_hint_max']
            col, row = col_and_row_indices[i]

            if shw is None:
                cols_count[col][w] += 1
            if shh is None:
                rows_count[row][h] += 1

            # compute minimum size / maximum stretch needed
            if shw is None:
                cols[col] = nmax(cols[col], w)
            else:
                cols_sh[col] = nmax(cols_sh[col], shw)
                if shw_min is not None:
                    has_bound_x = True
                    cols_sh_min[col] = nmax(cols_sh_min[col], shw_min)
                if shw_max is not None:
                    has_bound_x = True
                    cols_sh_max[col] = nmin(cols_sh_max[col], shw_max)

            if shh is None:
                rows[row] = nmax(rows[row], h)
            else:
                rows_sh[row] = nmax(rows_sh[row], shh)
                if shh_min is not None:
                    has_bound_y = True
                    rows_sh_min[row] = nmax(rows_sh_min[row], shh_min)
                if shh_max is not None:
                    has_bound_y = True
                    rows_sh_max[row] = nmin(rows_sh_max[row], shh_max)
        self._has_hint_bound_x = has_bound_x
        self._has_hint_bound_y = has_bound_y
示例#2
0
    def _fill_rows_cols_sizes(self):
        cols, rows = self._cols, self._rows
        cols_sh, rows_sh = self._cols_sh, self._rows_sh
        cols_sh_min, rows_sh_min = self._cols_sh_min, self._rows_sh_min
        cols_sh_max, rows_sh_max = self._cols_sh_max, self._rows_sh_max
        self._cols_count = cols_count = [defaultdict(int) for _ in cols]
        self._rows_count = rows_count = [defaultdict(int) for _ in rows]

        # calculate minimum size for each columns and rows
        n_cols = len(cols)
        has_bound_y = has_bound_x = False
        for i, opt in enumerate(self.view_opts):
            (shw, shh), (w, h) = opt['size_hint'], opt['size']
            shw_min, shh_min = opt['size_hint_min']
            shw_max, shh_max = opt['size_hint_max']
            row, col = divmod(i, n_cols)

            if shw is None:
                cols_count[col][w] += 1
            if shh is None:
                rows_count[row][h] += 1

            # compute minimum size / maximum stretch needed
            if shw is None:
                cols[col] = nmax(cols[col], w)
            else:
                cols_sh[col] = nmax(cols_sh[col], shw)
                if shw_min is not None:
                    has_bound_x = True
                    cols_sh_min[col] = nmax(cols_sh_min[col], shw_min)
                if shw_max is not None:
                    has_bound_x = True
                    cols_sh_max[col] = nmin(cols_sh_max[col], shw_max)

            if shh is None:
                rows[row] = nmax(rows[row], h)
            else:
                rows_sh[row] = nmax(rows_sh[row], shh)
                if shh_min is not None:
                    has_bound_y = True
                    rows_sh_min[row] = nmax(rows_sh_min[row], shh_min)
                if shh_max is not None:
                    has_bound_y = True
                    rows_sh_max[row] = nmin(rows_sh_max[row], shh_max)
        self._has_hint_bound_x = has_bound_x
        self._has_hint_bound_y = has_bound_y
示例#3
0
    def _fill_rows_cols_sizes(self):
        cols, rows = self._cols, self._rows
        cols_sh, rows_sh = self._cols_sh, self._rows_sh
        cols_sh_min, rows_sh_min = self._cols_sh_min, self._rows_sh_min
        cols_sh_max, rows_sh_max = self._cols_sh_max, self._rows_sh_max
        self._cols_count = cols_count = [defaultdict(int) for _ in cols]
        self._rows_count = rows_count = [defaultdict(int) for _ in rows]

        # calculate minimum size for each columns and rows
        n_cols = len(cols)
        has_bound_y = has_bound_x = False
        for i, opt in enumerate(self.view_opts):
            (shw, shh), (w, h) = opt['size_hint'], opt['size']
            shw_min, shh_min = opt['size_hint_min']
            shw_max, shh_max = opt['size_hint_max']
            row, col = divmod(i, n_cols)

            if shw is None:
                cols_count[col][w] += 1
            if shh is None:
                rows_count[row][h] += 1

            # compute minimum size / maximum stretch needed
            if shw is None:
                cols[col] = nmax(cols[col], w)
            else:
                cols_sh[col] = nmax(cols_sh[col], shw)
                if shw_min is not None:
                    has_bound_x = True
                    cols_sh_min[col] = nmax(cols_sh_min[col], shw_min)
                if shw_max is not None:
                    has_bound_x = True
                    cols_sh_max[col] = nmin(cols_sh_max[col], shw_max)

            if shh is None:
                rows[row] = nmax(rows[row], h)
            else:
                rows_sh[row] = nmax(rows_sh[row], shh)
                if shh_min is not None:
                    has_bound_y = True
                    rows_sh_min[row] = nmax(rows_sh_min[row], shh_min)
                if shh_max is not None:
                    has_bound_y = True
                    rows_sh_max[row] = nmin(rows_sh_max[row], shh_max)
        self._has_hint_bound_x = has_bound_x
        self._has_hint_bound_y = has_bound_y