/* vim: set sw=8: -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */ /* * position.c: Utility routines for various types of positional * coordinates. * * Copyright (C) 2000-2005 Jody Goldberg (jody@gnome.org) * Copyright (C) 2006-2009 Morten Welinder (terra@gnome.org) * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 * USA */ #include #include "gnumeric.h" #include "libgnumeric.h" #include "position.h" #include "sheet.h" #include "sheet-view.h" #include "cell.h" #include "value.h" #include "ranges.h" #include #include "workbook.h" /* GnmCellPos made a boxed type */ static GnmCellPos * gnm_cell_pos_dup (GnmCellPos *pos) { GnmCellPos *res = g_new (GnmCellPos, 1); *res = *pos; return res; } GType gnm_cell_pos_get_type (void) { static GType t = 0; if (t == 0) { t = g_boxed_type_register_static ("GnmCellPos", (GBoxedCopyFunc)gnm_cell_pos_dup, (GBoxedFreeFunc)g_free); } return t; } /* GnmEvalPos made a boxed type */ static GnmEvalPos * gnm_eval_pos_dup (GnmEvalPos *ep) { GnmEvalPos *res = g_new0 (GnmEvalPos, 1); memcpy (res, ep, sizeof (GnmEvalPos)); /* is this safe? */ return res; } GType gnm_eval_pos_get_type (void) { static GType t = 0; if (t == 0) { t = g_boxed_type_register_static ("GnmEvalPos", (GBoxedCopyFunc)gnm_eval_pos_dup, (GBoxedFreeFunc)g_free); } return t; } /** * eval_pos_init: * @ep: The position to init. * @s: #Sheet * @col: column. * @row: row * * Returns: (transfer none): the initialized #GnmEvalPos (@ep). **/ GnmEvalPos * eval_pos_init (GnmEvalPos *ep, Sheet *sheet, int col, int row) { g_return_val_if_fail (ep != NULL, NULL); g_return_val_if_fail (sheet != NULL, NULL); ep->eval.col = col; ep->eval.row = row; ep->sheet = sheet; ep->dep = NULL; ep->array = NULL; return ep; } /** * eval_pos_init_pos: * @ep: The position to init. * @s: #Sheet * @pos: #GnmCellPos * * Returns: (transfer none): the initialized #GnmEvalPos (@ep). **/ GnmEvalPos * eval_pos_init_pos (GnmEvalPos *ep, Sheet *sheet, GnmCellPos const *pos) { g_return_val_if_fail (ep != NULL, NULL); g_return_val_if_fail (sheet != NULL, NULL); g_return_val_if_fail (pos != NULL, NULL); ep->eval = *pos; ep->sheet = sheet; ep->dep = NULL; ep->array = NULL; return ep; } /** * eval_pos_init_dep: * @ep: The position to init. * @dep: * * Returns: (transfer none): the initialized #GnmEvalPos (@ep). **/ GnmEvalPos * eval_pos_init_dep (GnmEvalPos *ep, GnmDependent const *dep) { g_return_val_if_fail (ep != NULL, NULL); g_return_val_if_fail (dep != NULL, NULL); ep->eval = *dependent_pos (dep); ep->sheet = dep->sheet; ep->dep = (GnmDependent *)dep; ep->array = NULL; return ep; } /** * eval_pos_init_editpos: * @ep: The position to init. * @sv: @Sheetview * * The function initializes an evalpos with the edit position from the * given sheetview. * Returns: (transfer none): the initialized #GnmEvalPos (@ep). **/ GnmEvalPos * eval_pos_init_editpos (GnmEvalPos *ep, SheetView const *sv) { g_return_val_if_fail (ep != NULL, NULL); g_return_val_if_fail (IS_SHEET_VIEW (sv), NULL); return eval_pos_init (ep, sv_sheet (sv), sv->edit_pos.col, sv->edit_pos.row); } /** * eval_pos_init_cell: * @ep: The position to init. * @cell: A cell * * The function initializes an evalpos with the given cell * * Returns: (transfer none): the initialized #GnmEvalPos (@ep). */ GnmEvalPos * eval_pos_init_cell (GnmEvalPos *ep, GnmCell const *cell) { g_return_val_if_fail (ep != NULL, NULL); g_return_val_if_fail (cell != NULL, NULL); ep->eval = cell->pos; ep->sheet = cell->base.sheet; ep->dep = (GnmDependent *)GNM_CELL_TO_DEP (cell); ep->array = NULL; return ep; } /** * eval_pos_init_sheet: * @ep: The position to init. * @sheet: A sheet * * The function initializes an evalpos with the given sheet. * * Returns: (transfer none): the initialized #GnmEvalPos (@ep). */ GnmEvalPos * eval_pos_init_sheet (GnmEvalPos *ep, Sheet const *sheet) { g_return_val_if_fail (ep != NULL, NULL); g_return_val_if_fail (IS_SHEET (sheet), NULL); ep->eval.col = ep->eval.row = 0; ep->sheet = (Sheet *)sheet; ep->dep = NULL; ep->array = NULL; return ep; } static GnmParsePos * gnm_parse_pos_dup (GnmParsePos *ep) { GnmParsePos *res = g_new0 (GnmParsePos, 1); memcpy (res, ep, sizeof (GnmParsePos)); /* is this safe? */ return res; } GType gnm_parse_pos_get_type (void) { static GType t = 0; if (t == 0) { t = g_boxed_type_register_static ("GnmParsePos", (GBoxedCopyFunc)gnm_parse_pos_dup, (GBoxedFreeFunc)g_free); } return t; } /* * parse_pos_init: * * @pp: The position to init. * @sheet: The sheet being selected * @wb: The workbook being selected. * @row: * @col: * * Use either a sheet (preferred) or a workbook to initialize the supplied * ParsePosition. * Returns: (transfer none): the initialized #GnmParsePos (@pp). */ GnmParsePos * parse_pos_init (GnmParsePos *pp, Workbook *wb, Sheet const *sheet, int col, int row) { /* Global */ if (wb == NULL && sheet == NULL) return NULL; g_return_val_if_fail (pp != NULL, NULL); pp->sheet = (Sheet *)sheet; pp->wb = sheet ? sheet->workbook : wb; pp->eval.col = col; pp->eval.row = row; return pp; } /* * parse_pos_init_dep: * @pp: The position to init. * @dep: The dependent * * Returns: (transfer none): the initialized #GnmParsePos (@pp). */ GnmParsePos * parse_pos_init_dep (GnmParsePos *pp, GnmDependent const *dep) { g_return_val_if_fail (pp != NULL, NULL); pp->sheet = dep->sheet; pp->wb = dep->sheet ? dep->sheet->workbook : NULL; pp->eval = *dependent_pos (dep); return pp; } /* * parse_pos_init_cell: * @pp: The position to init. * @cell: The cell * * Returns: (transfer none): the initialized #GnmParsePos (@pp). */ GnmParsePos * parse_pos_init_cell (GnmParsePos *pp, GnmCell const *cell) { g_return_val_if_fail (cell != NULL, NULL); g_return_val_if_fail (IS_SHEET (cell->base.sheet), NULL); g_return_val_if_fail (cell->base.sheet->workbook != NULL, NULL); return parse_pos_init (pp, NULL, cell->base.sheet, cell->pos.col, cell->pos.row); } /* * parse_pos_init_evalpos: * @pp: The position to init. * @ep: #GnmEvalPos * * Returns: (transfer none): the initialized #GnmParsePos (@pp). */ GnmParsePos * parse_pos_init_evalpos (GnmParsePos *pp, GnmEvalPos const *ep) { g_return_val_if_fail (ep != NULL, NULL); return parse_pos_init (pp, NULL, ep->sheet, ep->eval.col, ep->eval.row); } /* * parse_pos_init_editpos: * @pp: The position to init. * @sv: sheet view * * Returns: (transfer none): the initialized #GnmParsePos (@pp). */ GnmParsePos * parse_pos_init_editpos (GnmParsePos *pp, SheetView const *sv) { g_return_val_if_fail (IS_SHEET_VIEW (sv), NULL); return parse_pos_init (pp, NULL, sv_sheet (sv), sv->edit_pos.col, sv->edit_pos.row); } /* * parse_pos_init_sheet: * @pp: The position to init. * @sheet: The sheet * * Returns: (transfer none): the initialized #GnmParsePos (@pp). */ GnmParsePos * parse_pos_init_sheet (GnmParsePos *pp, Sheet const *sheet) { g_return_val_if_fail (pp != NULL, NULL); g_return_val_if_fail (IS_SHEET (sheet), NULL); return parse_pos_init (pp, NULL, sheet, 0, 0); } /********************************************************************************/ static GnmCellRef * gnm_cellref_dup (GnmCellRef *ep) { GnmCellRef *res = g_new0 (GnmCellRef, 1); memcpy (res, ep, sizeof (GnmCellRef)); /* is this safe? */ return res; } GType gnm_cellref_get_type (void) { static GType t = 0; if (t == 0) { t = g_boxed_type_register_static ("GnmCellRef", (GBoxedCopyFunc)gnm_cellref_dup, (GBoxedFreeFunc)g_free); } return t; } GnmCellRef * gnm_cellref_init (GnmCellRef *ref, Sheet *sheet, int col, int row, gboolean relative) { ref->sheet = sheet; ref->col = col; ref->row = row; ref->col_relative = ref->row_relative = relative; return ref; } gboolean gnm_cellref_equal (GnmCellRef const *a, GnmCellRef const *b) { return (a->col == b->col) && (a->col_relative == b->col_relative) && (a->row == b->row) && (a->row_relative == b->row_relative) && (a->sheet == b->sheet); } guint gnm_cellref_hash (GnmCellRef const *cr) { guint h = cr->row; h = (h << 16) | (h >> 16); h ^= ((guint)cr->col << 2); if (cr->col_relative) h ^= 1; if (cr->row_relative) h ^= 2; return h; } int gnm_cellref_get_col (GnmCellRef const *ref, GnmEvalPos const *ep) { g_return_val_if_fail (ref != NULL, 0); g_return_val_if_fail (ep != NULL, 0); if (ref->col_relative) { Sheet const *sheet = eval_sheet (ref->sheet, ep->sheet); int res = (ep->eval.col + ref->col) % gnm_sheet_get_max_cols (sheet); if (res < 0) return res + gnm_sheet_get_max_cols (sheet); return res; } return ref->col; } int gnm_cellref_get_row (GnmCellRef const *ref, GnmEvalPos const *ep) { g_return_val_if_fail (ref != NULL, 0); g_return_val_if_fail (ep != NULL, 0); if (ref->row_relative) { Sheet const *sheet = eval_sheet (ref->sheet, ep->sheet); int res = (ep->eval.row + ref->row) % gnm_sheet_get_max_rows (sheet); if (res < 0) return res + gnm_sheet_get_max_rows (sheet); return res; } return ref->row; } void gnm_cellpos_init_cellref_ss (GnmCellPos *res, GnmCellRef const *cell_ref, GnmCellPos const *pos, GnmSheetSize const *ss) { g_return_if_fail (cell_ref != NULL); g_return_if_fail (res != NULL); if (cell_ref->col_relative) { int col = cell_ref->col + pos->col; int max = ss->max_cols; if (col < 0) col += max; else if (col >= max) col -= max; res->col = col; } else res->col = cell_ref->col; if (cell_ref->row_relative) { int row = cell_ref->row + pos->row; int max = ss->max_rows; if (row < 0) row += max; else if (row >= max) row -= max; res->row = row; } else res->row = cell_ref->row; } void gnm_cellpos_init_cellref (GnmCellPos *res, GnmCellRef const *cell_ref, GnmCellPos const *pos, Sheet const *base_sheet) { Sheet const *sheet = eval_sheet (cell_ref->sheet, base_sheet); gnm_cellpos_init_cellref_ss (res, cell_ref, pos, gnm_sheet_get_size (sheet)); } void gnm_cellref_make_abs (GnmCellRef *dest, GnmCellRef const *src, GnmEvalPos const *ep) { GnmCellPos pos; g_return_if_fail (dest != NULL); g_return_if_fail (src != NULL); g_return_if_fail (ep != NULL); gnm_cellpos_init_cellref (&pos, src, &ep->eval, ep->sheet); dest->sheet = src->sheet; dest->col = pos.col; dest->row = pos.row; dest->col_relative = FALSE; dest->row_relative = FALSE; } void gnm_cellref_set_col_ar (GnmCellRef *cr, GnmParsePos const *pp, gboolean abs_rel) { if (cr->col_relative ^ abs_rel) { if (cr->col_relative) cr->col += pp->eval.col; else cr->col -= pp->eval.col; cr->col_relative = abs_rel; } } void gnm_cellref_set_row_ar (GnmCellRef *cr, GnmParsePos const *pp, gboolean abs_rel) { if (cr->row_relative ^ abs_rel) { if (cr->row_relative) cr->row += pp->eval.row; else cr->row -= pp->eval.row; cr->row_relative = abs_rel; } } gboolean gnm_rangeref_equal (GnmRangeRef const *a, GnmRangeRef const *b) { return gnm_cellref_equal (&a->a, &b->a) && gnm_cellref_equal (&a->b, &b->b); } guint gnm_rangeref_hash (GnmRangeRef const *rr) { guint h = gnm_cellref_hash (&rr->a); h = (h << 16) | (h >> 16); h ^= gnm_cellref_hash (&rr->b); return h; } GnmRangeRef * gnm_rangeref_dup (GnmRangeRef const *rr) { GnmRangeRef *res; g_return_val_if_fail (rr != NULL, NULL); res = g_new (GnmRangeRef, 1); *res = *rr; return res; } GType gnm_rangeref_get_type (void) { static GType t = 0; if (t == 0) { t = g_boxed_type_register_static ("GnmRangeRef", (GBoxedCopyFunc)gnm_rangeref_dup, (GBoxedFreeFunc)g_free); } return t; } /** * gnm_rangeref_normalize: * * Take a range_ref and normalize it by converting to absolute coords and handling * inversions. */ void gnm_rangeref_normalize_pp (GnmRangeRef const *ref, GnmParsePos const *pp, Sheet **start_sheet, Sheet **end_sheet, GnmRange *dest) { GnmSheetSize const *ss; g_return_if_fail (ref != NULL); g_return_if_fail (pp != NULL); *start_sheet = eval_sheet (ref->a.sheet, pp->sheet); *end_sheet = eval_sheet (ref->b.sheet, *start_sheet); ss = gnm_sheet_get_size2 (*start_sheet, pp->wb); gnm_cellpos_init_cellref_ss (&dest->start, &ref->a, &pp->eval, ss); ss = *end_sheet ? gnm_sheet_get_size (*end_sheet) : ss; gnm_cellpos_init_cellref_ss (&dest->end, &ref->b, &pp->eval, ss); range_normalize (dest); } void gnm_rangeref_normalize (GnmRangeRef const *ref, GnmEvalPos const *ep, Sheet **start_sheet, Sheet **end_sheet, GnmRange *dest) { GnmParsePos pp; parse_pos_init_evalpos (&pp, ep); gnm_rangeref_normalize_pp (ref, &pp, start_sheet, end_sheet, dest); } guint gnm_cellpos_hash (GnmCellPos const *key) { guint h = key->row; h = (h << 16) | (h >> 16); h ^= key->col; return h; } gint gnm_cellpos_equal (GnmCellPos const *a, GnmCellPos const *b) { return (a->row == b->row && a->col == b->col); }