#include "cell.h" #include "options.h" #include "string_buffer.h" #include "assert.h" /***************************************************************************** * CELL * ***************************************************************************/ struct fort_cell { string_buffer_t *str_buffer; fort_table_options_t *options; }; fort_cell_t *create_cell(void) { fort_cell_t *cell = (fort_cell_t *)F_CALLOC(sizeof(fort_cell_t), 1); if (cell == NULL) return NULL; cell->str_buffer = create_string_buffer(DEFAULT_STR_BUF_SIZE, CharBuf); if (cell->str_buffer == NULL) { F_FREE(cell); return NULL; } cell->options = NULL; /*init_cell_options(&(cell->options));*/ return cell; } void destroy_cell(fort_cell_t *cell) { if (cell == NULL) return; destroy_string_buffer(cell->str_buffer); F_FREE(cell->options); F_FREE(cell); } int hint_width_cell(const fort_cell_t *cell, const context_t *context) { /* todo: * 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 */ assert(cell); assert(context); int cell_padding_left = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_LEFT_PADDING); int cell_padding_right = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_RIGHT_PADDING); int result = cell_padding_left + cell_padding_right; if (cell->str_buffer && cell->str_buffer->str.data) { result += buffer_text_width(cell->str_buffer); } result = MAX(result, get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_MIN_WIDTH)); return result; } int hint_height_cell(const fort_cell_t *cell, const context_t *context) { assert(cell); assert(context); int cell_padding_top = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_TOP_PADDING); int cell_padding_bottom = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_BOTTOM_PADDING); int cell_empty_string_height = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_EMPTY_STR_HEIGHT); int result = cell_padding_top + cell_padding_bottom; if (cell->str_buffer && cell->str_buffer->str.data) { size_t text_height = buffer_text_height(cell->str_buffer); result += text_height == 0 ? cell_empty_string_height : text_height; } return result; } /* * Returns number of lines in cell. If cell is empty or * contains empty string, then 0 is returned. */ /* static int lines_number_cell(fort_cell_t *cell) { assert(cell); if (cell->str_buffer == NULL || cell->str_buffer->str == NULL || cell->str_buffer->str[0] == '\0') { return 0; } int result = 0; char *pos = cell->str_buffer->str; while ((pos = strchr(pos, '\n')) != NULL) { result++; pos++; } return result + 1; } */ int cell_printf(fort_cell_t *cell, size_t row, char *buf, size_t buf_len, const context_t *context) { char space_char = ' '; int (*buffer_printf_)(string_buffer_t *, size_t, char *, size_t, const context_t *) = buffer_printf; int (*snprint_n_chars_)(char *, size_t, size_t, char) = snprint_n_chars; if (cell == NULL || buf_len == 0 || (buf_len <= hint_width_cell(cell, context))) { return -1; } int cell_padding_top = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_TOP_PADDING); int cell_padding_left = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_LEFT_PADDING); int cell_padding_right = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_RIGHT_PADDING); if (row >= hint_height_cell(cell, context) || row < cell_padding_top || row >= (cell_padding_top + buffer_text_height(cell->str_buffer))) { return snprint_n_chars_(buf, buf_len, buf_len - 1, space_char); } int written = 0; int tmp = 0; int left = cell_padding_left; int right = cell_padding_right; CHCK_RSLT_ADD_TO_WRITTEN(snprint_n_chars_(buf + written, buf_len - written, left, space_char)); if (cell->str_buffer) CHCK_RSLT_ADD_TO_WRITTEN(buffer_printf_(cell->str_buffer, row - cell_padding_top, buf + written, buf_len - written - right, context)); else CHCK_RSLT_ADD_TO_WRITTEN(snprint_n_chars_(buf + written, buf_len - written, buf_len - written - right, space_char)); CHCK_RSLT_ADD_TO_WRITTEN(snprint_n_chars_(buf + written, buf_len - written, right, space_char)); return written; clear: return -1; } int cell_wprintf(fort_cell_t *cell, size_t row, wchar_t *buf, size_t buf_len, const context_t *context) { wchar_t space_char = L' '; int (*buffer_printf_)(string_buffer_t *, size_t, wchar_t *, size_t, const context_t *) = buffer_wprintf; int (*snprint_n_chars_)(wchar_t *, size_t, size_t, wchar_t) = wsnprint_n_chars; if (cell == NULL || buf_len == 0 || (buf_len <= hint_width_cell(cell, context))) { return -1; } int cell_padding_top = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_TOP_PADDING); int cell_padding_left = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_LEFT_PADDING); int cell_padding_right = get_cell_opt_value_hierarcial(context->table_options, context->row, context->column, FT_COPT_RIGHT_PADDING); if (row >= hint_height_cell(cell, context) || row < cell_padding_top || row >= (cell_padding_top + buffer_text_height(cell->str_buffer))) { return snprint_n_chars_(buf, buf_len, buf_len - 1, space_char); } int written = 0; int tmp = 0; int left = cell_padding_left; int right = cell_padding_right; CHCK_RSLT_ADD_TO_WRITTEN(snprint_n_chars_(buf + written, buf_len - written, left, space_char)); if (cell->str_buffer) CHCK_RSLT_ADD_TO_WRITTEN(buffer_printf_(cell->str_buffer, row - cell_padding_top, buf + written, buf_len - written - right, context)); else CHCK_RSLT_ADD_TO_WRITTEN(snprint_n_chars_(buf + written, buf_len - written, buf_len - written - right, space_char)); CHCK_RSLT_ADD_TO_WRITTEN(snprint_n_chars_(buf + written, buf_len - written, right, space_char)); return written; clear: return -1; } fort_status_t fill_cell_from_string(fort_cell_t *cell, const char *str) { assert(str); assert(cell); return fill_buffer_from_string(cell->str_buffer, str); } string_buffer_t *cell_get_string_buffer(fort_cell_t *cell) { assert(cell); assert(cell->str_buffer); return cell->str_buffer; }