#include "table.h" #include "string_buffer.h" #include "cell.h" #include "vector.h" #include "row.h" FT_INTERNAL separator_t *create_separator(int enabled) { separator_t *res = (separator_t *)F_CALLOC(1, sizeof(separator_t)); if (res == NULL) return NULL; res->enabled = enabled; return res; } FT_INTERNAL void destroy_separator(separator_t *sep) { F_FREE(sep); } FT_INTERNAL separator_t *copy_separator(separator_t *sep) { assert(sep); return create_separator(sep->enabled); } static fort_row_t *get_row_impl(ft_table_t *table, size_t row, enum get_policy policy) { if (table == NULL || table->rows == NULL) { return NULL; } switch (policy) { case DONT_CREATE_ON_NULL: if (row < vector_size(table->rows)) { return *(fort_row_t **)vector_at(table->rows, row); } return NULL; case CREATE_ON_NULL: while (row >= vector_size(table->rows)) { fort_row_t *new_row = create_row(); if (new_row == NULL) return NULL; if (FT_IS_ERROR(vector_push(table->rows, &new_row))) { destroy_row(new_row); return NULL; } } return *(fort_row_t **)vector_at(table->rows, row); } assert(0 && "Shouldn't be here!"); return NULL; } FT_INTERNAL fort_row_t *get_row(ft_table_t *table, size_t row) { return get_row_impl(table, row, DONT_CREATE_ON_NULL); } FT_INTERNAL const fort_row_t *get_row_c(const ft_table_t *table, size_t row) { return get_row((ft_table_t *)table, row); } FT_INTERNAL fort_row_t *get_row_and_create_if_not_exists(ft_table_t *table, size_t row) { return get_row_impl(table, row, CREATE_ON_NULL); } FT_INTERNAL string_buffer_t *get_cur_str_buffer_and_create_if_not_exists(ft_table_t *table) { assert(table); fort_row_t *row = get_row_and_create_if_not_exists(table, table->cur_row); if (row == NULL) return NULL; fort_cell_t *cell = get_cell_and_create_if_not_exists(row, table->cur_col); if (cell == NULL) return NULL; return cell_get_string_buffer(cell); } /* * Returns number of cells (rows * cols) */ FT_INTERNAL fort_status_t get_table_sizes(const ft_table_t *table, size_t *rows, size_t *cols) { *rows = 0; *cols = 0; if (table && table->rows) { *rows = vector_size(table->rows); /* fort_row_t *row = NULL; FOR_EACH(fort_row_t *, row, table->rows) { (void)i0; size_t cols_in_row = columns_in_row(row); if (cols_in_row > *cols) *cols = cols_in_row; } */ size_t row_index = 0; for (row_index = 0; row_index < vector_size(table->rows); ++row_index) { fort_row_t *row = *(fort_row_t **)vector_at(table->rows, row_index); size_t cols_in_row = columns_in_row(row); if (cols_in_row > *cols) *cols = cols_in_row; } } return FT_SUCCESS; } FT_INTERNAL fort_status_t table_rows_and_cols_geometry(const ft_table_t *table, size_t **col_width_arr_p, size_t *col_width_arr_sz, size_t **row_height_arr_p, size_t *row_height_arr_sz, enum request_geom_type geom) { if (table == NULL) { return FT_ERROR; } size_t cols = 0; size_t rows = 0; int status = get_table_sizes(table, &rows, &cols); if (FT_IS_ERROR(status)) return status; size_t *col_width_arr = (size_t *)F_CALLOC(sizeof(size_t), cols); size_t *row_height_arr = (size_t *)F_CALLOC(sizeof(size_t), rows); if (col_width_arr == NULL || row_height_arr == NULL) { F_FREE(col_width_arr); F_FREE(row_height_arr); return FT_ERROR; } int combined_cells_found = 0; context_t context; context.table_properties = (table->properties ? table->properties : &g_table_properties); size_t col = 0; for (col = 0; col < cols; ++col) { col_width_arr[col] = 0; size_t row = 0; for (row = 0; row < rows; ++row) { const fort_row_t *row_p = get_row_c(table, row); const fort_cell_t *cell = get_cell_c(row_p, col); context.column = col; context.row = row; if (cell) { switch (get_cell_type(cell)) { case CommonCell: col_width_arr[col] = MAX(col_width_arr[col], hint_width_cell(cell, &context, geom)); break; case GroupMasterCell: combined_cells_found = 1; break; case GroupSlaveCell: ; /* Do nothing */ break; } row_height_arr[row] = MAX(row_height_arr[row], hint_height_cell(cell, &context)); } else { size_t cell_empty_string_height = get_cell_property_value_hierarcial(context.table_properties, context.row, context.column, FT_CPROP_EMPTY_STR_HEIGHT); if (cell_empty_string_height) { size_t cell_top_padding = get_cell_property_value_hierarcial(context.table_properties, context.row, context.column, FT_CPROP_TOP_PADDING); size_t cell_bottom_padding = get_cell_property_value_hierarcial(context.table_properties, context.row, context.column, FT_CPROP_BOTTOM_PADDING); row_height_arr[row] = MAX(row_height_arr[row], cell_empty_string_height + cell_top_padding + cell_bottom_padding); } } } } if (combined_cells_found) { for (col = 0; col < cols; ++col) { size_t row = 0; for (row = 0; row < rows; ++row) { const fort_row_t *row_p = get_row_c(table, row); const fort_cell_t *cell = get_cell_c(row_p, col); context.column = col; context.row = row; if (cell) { if (get_cell_type(cell) == GroupMasterCell) { size_t hint_width = hint_width_cell(cell, &context, geom); size_t slave_col = col + group_cell_number(row_p, col); size_t cur_adj_col = col; size_t group_width = col_width_arr[col]; size_t i; for (i = col + 1; i < slave_col; ++i) group_width += col_width_arr[i] + FORT_COL_SEPARATOR_LENGTH; /* adjust col. widths */ while (1) { if (group_width >= hint_width) break; col_width_arr[cur_adj_col] += 1; group_width++; cur_adj_col++; if (cur_adj_col == slave_col) cur_adj_col = col; } } } } } } /* todo: Maybe it is better to move min width checking to a particular cell width checking. * At the moment min width includes paddings. Maybe it is better that min width weren't include * paddings but be min width of the cell content without padding */ /* if (table->properties) { for (size_t i = 0; i < cols; ++i) { col_width_arr[i] = MAX((int)col_width_arr[i], fort_props_column_width(table->properties, i)); } } */ *col_width_arr_p = col_width_arr; *col_width_arr_sz = cols; *row_height_arr_p = row_height_arr; *row_height_arr_sz = rows; return FT_SUCCESS; } /* * Returns geometry in characters */ FT_INTERNAL fort_status_t table_geometry(const ft_table_t *table, size_t *height, size_t *width) { if (table == NULL) return FT_ERROR; *height = 0; *width = 0; size_t cols = 0; size_t rows = 0; size_t *col_width_arr = NULL; size_t *row_height_arr = NULL; int status = table_rows_and_cols_geometry(table, &col_width_arr, &cols, &row_height_arr, &rows, INTERN_REPR_GEOMETRY); if (FT_IS_ERROR(status)) return status; *width = 1 + (cols == 0 ? 1 : cols) + 1; /* for boundaries (that take 1 symbol) + newline */ size_t i = 0; for (i = 0; i < cols; ++i) { *width += col_width_arr[i]; } /* todo: add check for non printable horizontal row separators */ *height = 1 + (rows == 0 ? 1 : rows); /* for boundaries (that take 1 symbol) */ for (i = 0; i < rows; ++i) { *height += row_height_arr[i]; } F_FREE(col_width_arr); F_FREE(row_height_arr); if (table->properties) { *height += table->properties->entire_table_properties.top_margin; *height += table->properties->entire_table_properties.bottom_margin; *width += table->properties->entire_table_properties.left_margin; *width += table->properties->entire_table_properties.right_margin; } /* Take into account that border elements can be more than one byte long */ fort_table_properties_t *table_properties = table->properties ? table->properties : &g_table_properties; size_t max_border_elem_len = max_border_elem_strlen(table_properties); *width *= max_border_elem_len; return FT_SUCCESS; } FT_INTERNAL fort_status_t table_internal_codepoints_geometry(const ft_table_t *table, size_t *height, size_t *width) { return table_geometry(table, height, width); }