void AP_UnixDialog_Paragraph::_populateWindowData(void) { // alignment option menu UT_ASSERT(m_listAlignment); XAP_comboBoxSetActiveFromIntCol(GTK_COMBO_BOX(m_listAlignment), 1, (gint) _getMenuItemValue(id_MENU_ALIGNMENT)); // indent and paragraph margins UT_ASSERT(m_spinbuttonLeft); gtk_entry_set_text(GTK_ENTRY(m_spinbuttonLeft), (const gchar *) _getSpinItemValue(id_SPIN_LEFT_INDENT)); UT_ASSERT(m_spinbuttonRight); gtk_entry_set_text(GTK_ENTRY(m_spinbuttonRight), (const gchar *) _getSpinItemValue(id_SPIN_RIGHT_INDENT)); UT_ASSERT(m_spinbuttonBy); gtk_entry_set_text(GTK_ENTRY(m_spinbuttonBy), (const gchar *) _getSpinItemValue(id_SPIN_SPECIAL_INDENT)); UT_ASSERT(m_listSpecial); XAP_comboBoxSetActiveFromIntCol(GTK_COMBO_BOX(m_listSpecial), 1, (gint) _getMenuItemValue(id_MENU_SPECIAL_INDENT)); // spacing UT_ASSERT(m_spinbuttonLeft); gtk_entry_set_text(GTK_ENTRY(m_spinbuttonBefore), (const gchar *) _getSpinItemValue(id_SPIN_BEFORE_SPACING)); UT_ASSERT(m_spinbuttonRight); gtk_entry_set_text(GTK_ENTRY(m_spinbuttonAfter), (const gchar *) _getSpinItemValue(id_SPIN_AFTER_SPACING)); UT_ASSERT(m_spinbuttonAt); gtk_entry_set_text(GTK_ENTRY(m_spinbuttonAt), (const gchar *) _getSpinItemValue(id_SPIN_SPECIAL_SPACING)); UT_ASSERT(m_listLineSpacing); XAP_comboBoxSetActiveFromIntCol(GTK_COMBO_BOX(m_listLineSpacing), 1, (gint) _getMenuItemValue(id_MENU_SPECIAL_SPACING)); // set the check boxes // TODO : handle tri-state boxes !!! gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonWidowOrphan)), (_getCheckItemValue(id_CHECK_WIDOW_ORPHAN) == check_TRUE)); gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonKeepLines)), (_getCheckItemValue(id_CHECK_KEEP_LINES) == check_TRUE)); gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonPageBreak)), (_getCheckItemValue(id_CHECK_PAGE_BREAK) == check_TRUE)); gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonSuppress)), (_getCheckItemValue(id_CHECK_SUPPRESS) == check_TRUE)); gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonHyphenate)), (_getCheckItemValue(id_CHECK_NO_HYPHENATE) == check_TRUE)); gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonKeepNext)), (_getCheckItemValue(id_CHECK_KEEP_NEXT) == check_TRUE)); gtk_toggle_button_set_active(GTK_TOGGLE_BUTTON(GTK_CHECK_BUTTON(m_checkbuttonDomDirection)), (_getCheckItemValue(id_CHECK_DOMDIRECTION) == check_TRUE)); }
void AP_Dialog_Paragraph::_syncControls(tControl changed, bool /*bAll = false */) { if(changed == id_SPIN_LEFT_INDENT) { // need to check the limits // cannot go past left page margin. // TODO : is there a minimum text width? double leftPageMargin = UT_convertToDimension(m_pageLeftMargin, m_dim); double rightIndent = UT_convertToDimension(_getSpinItemValue(id_SPIN_RIGHT_INDENT), m_dim); if(-UT_convertToDimension(_getSpinItemValue(id_SPIN_LEFT_INDENT), m_dim) > leftPageMargin) { _setSpinItemValue(id_SPIN_LEFT_INDENT, (const gchar *)UT_formatDimensionString(m_dim, -leftPageMargin), op_SYNC); } // nor past pagesize - rightIndent on right. if(UT_convertDimensionless(_getSpinItemValue(id_SPIN_LEFT_INDENT)) > UT_convertInchesToDimension(m_iMaxWidth, m_dim) - rightIndent) { _setSpinItemValue(id_SPIN_LEFT_INDENT, (const gchar *)UT_convertInchesToDimensionString(m_dim, m_iMaxWidth - rightIndent), op_SYNC); } } if(changed == id_SPIN_RIGHT_INDENT) { // need to check the limits // cannot go past right page margin. double rightPageMargin = UT_convertToDimension(m_pageRightMargin, m_dim); double leftIndent = UT_convertToDimension(_getSpinItemValue(id_SPIN_LEFT_INDENT), m_dim); if(-UT_convertToDimension(_getSpinItemValue(id_SPIN_RIGHT_INDENT), m_dim) > rightPageMargin) { _setSpinItemValue(id_SPIN_RIGHT_INDENT, (const gchar *)UT_formatDimensionString(m_dim, -rightPageMargin), op_SYNC); } // nor can we force text left past pagesize, minus left margin if(UT_convertDimensionless(_getSpinItemValue(id_SPIN_RIGHT_INDENT)) > UT_convertInchesToDimension(m_iMaxWidth, m_dim) - leftIndent) { _setSpinItemValue(id_SPIN_RIGHT_INDENT, (const gchar *)UT_convertInchesToDimensionString(m_dim, m_iMaxWidth - leftIndent), op_SYNC); } } if (changed == id_MENU_SPECIAL_INDENT || changed == id_SPIN_SPECIAL_INDENT) { double dDefault = 0.0; bool bDefault = true; double sign = -1.0; if (_getMenuItemValue(id_MENU_SPECIAL_INDENT) == indent_FIRSTLINE) sign = +1.0; if (changed == id_MENU_SPECIAL_INDENT) { switch(_getMenuItemValue(id_MENU_SPECIAL_INDENT)) { case indent_NONE: dDefault = 0.0; break; case indent_FIRSTLINE: case indent_HANGING: // only change to default if existing value is zero dDefault = UT_convertDimensionless(_getSpinItemValue(id_SPIN_SPECIAL_INDENT)); if (dDefault == 0) { bDefault = false; } else { dDefault = 0.5; } break; default: UT_ASSERT_HARMLESS(UT_SHOULD_NOT_HAPPEN); break; } if (bDefault) { if (m_dim != DIM_IN) dDefault = UT_convertInchesToDimension(dDefault, m_dim); const gchar* szNew = UT_convertInchesToDimensionString(m_dim, dDefault, ".1"); _setSpinItemValue(id_SPIN_SPECIAL_INDENT, szNew, op_SYNC); } } else /* (changed == id_SPIN_SPECIAL_INDENT) */ { switch(_getMenuItemValue(id_MENU_SPECIAL_INDENT)) { case indent_NONE: _setMenuItemValue(id_MENU_SPECIAL_INDENT, indent_FIRSTLINE, op_SYNC); break; default: break; } } // if spin contains a negative number, we flip the direction of the indent. double val = UT_convertDimensionless(_getSpinItemValue(id_SPIN_SPECIAL_INDENT)); if (val < 0) { sign = -sign; // sometimes this appears to have no effect. why? if (_getMenuItemValue(id_MENU_SPECIAL_INDENT) == indent_FIRSTLINE) _setMenuItemValue(id_MENU_SPECIAL_INDENT, indent_HANGING, op_SYNC); else if (_getMenuItemValue(id_MENU_SPECIAL_INDENT) == indent_HANGING) _setMenuItemValue(id_MENU_SPECIAL_INDENT, indent_FIRSTLINE, op_SYNC); const gchar* szNew = UT_convertInchesToDimensionString(m_dim, -val, ".1"); _setSpinItemValue(id_SPIN_SPECIAL_INDENT, szNew, op_SYNC); } // sanity check. double leftIndent = UT_convertToDimension(_getSpinItemValue(id_SPIN_LEFT_INDENT), m_dim); double effectiveLeftMargin = leftIndent + (UT_convertToDimension (_getSpinItemValue(id_SPIN_SPECIAL_INDENT), m_dim) * sign); double leftPageMargin = UT_convertToDimension(m_pageLeftMargin, m_dim); double rightIndent = UT_convertToDimension(_getSpinItemValue(id_SPIN_RIGHT_INDENT), m_dim); if(-effectiveLeftMargin > leftPageMargin) { _setSpinItemValue(id_SPIN_SPECIAL_INDENT, (const gchar *)UT_formatDimensionString(m_dim, -leftPageMargin), op_SYNC); } if(effectiveLeftMargin > UT_convertInchesToDimension(m_iMaxWidth, m_dim) - rightIndent) { _setSpinItemValue(id_SPIN_SPECIAL_INDENT, (const gchar *)UT_convertInchesToDimensionString(m_dim, m_iMaxWidth - rightIndent), op_SYNC); } } if (changed == id_SPIN_SPECIAL_SPACING) { switch(_getMenuItemValue(id_MENU_SPECIAL_SPACING)) { case spacing_SINGLE: case spacing_ONEANDHALF: case spacing_DOUBLE: _setMenuItemValue(id_MENU_SPECIAL_SPACING, spacing_MULTIPLE, op_SYNC); break; default: break; } } if (changed == id_MENU_SPECIAL_SPACING) { UT_Dimension dimOld = UT_determineDimension(_getSpinItemValue(id_SPIN_SPECIAL_SPACING), DIM_none); switch(_getMenuItemValue(id_MENU_SPECIAL_SPACING)) { case spacing_SINGLE: _setSpinItemValue(id_SPIN_SPECIAL_SPACING, "1.0", op_SYNC); break; case spacing_ONEANDHALF: _setSpinItemValue(id_SPIN_SPECIAL_SPACING, "1.5", op_SYNC); break; case spacing_DOUBLE: _setSpinItemValue(id_SPIN_SPECIAL_SPACING, "2.0", op_SYNC); break; case spacing_ATLEAST: case spacing_EXACTLY: // only change to default if not dimensioned if (dimOld == DIM_none) _setSpinItemValue(id_SPIN_SPECIAL_SPACING, "12pt", op_SYNC); break; case spacing_MULTIPLE: // only change to default if dimensioned if (dimOld != DIM_none) _setSpinItemValue(id_SPIN_SPECIAL_SPACING, "1.0", op_SYNC); break; default: UT_ASSERT_HARMLESS(UT_SHOULD_NOT_HAPPEN); break; } } // the preview needs to suck in the changed data (to cache it // for subsequent draws) UT_BidiCharType iDir; if(_getCheckItemValue(id_CHECK_DOMDIRECTION) == check_TRUE) iDir = UT_BIDI_RTL; else if(_getCheckItemValue(id_CHECK_DOMDIRECTION) == check_FALSE) iDir = UT_BIDI_LTR; else { // nothing given -- default to LTR UT_DEBUGMSG(("AP_Dialog_Paragraph::_syncControls: no value of dom-dir," " defaulting to LTR\n")); iDir = UT_BIDI_LTR; } m_paragraphPreview->setFormat(m_pageLeftMargin, m_pageRightMargin, (AP_Dialog_Paragraph::tAlignState) _getMenuItemValue(id_MENU_ALIGNMENT), _getSpinItemValue(id_SPIN_SPECIAL_INDENT), (AP_Dialog_Paragraph::tIndentState) _getMenuItemValue(id_MENU_SPECIAL_INDENT), _getSpinItemValue(id_SPIN_LEFT_INDENT), _getSpinItemValue(id_SPIN_RIGHT_INDENT), _getSpinItemValue(id_SPIN_BEFORE_SPACING), _getSpinItemValue(id_SPIN_AFTER_SPACING), _getSpinItemValue(id_SPIN_SPECIAL_SPACING), (AP_Dialog_Paragraph::tSpacingState) _getMenuItemValue(id_MENU_SPECIAL_SPACING), iDir); m_paragraphPreview->queueDraw(); }
bool AP_Dialog_Paragraph::getDialogData(const gchar **& pProps) { UT_Vector v; struct propPair { gchar * prop; gchar * val; }; propPair * p; // only do this if the control has a proper value if (_wasChanged(id_MENU_ALIGNMENT) && _getMenuItemValue(id_MENU_ALIGNMENT)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("text-align"); switch (_getMenuItemValue(id_MENU_ALIGNMENT)) { case align_LEFT: p->val = g_strdup("left"); break; case align_CENTERED: p->val = g_strdup("center"); break; case align_RIGHT: p->val = g_strdup("right"); break; case align_JUSTIFIED: p->val = g_strdup("justify"); break; default: UT_ASSERT_HARMLESS(UT_SHOULD_NOT_HAPPEN); } v.addItem(p); } if (_wasChanged(id_CHECK_DOMDIRECTION)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("dom-dir"); if (_getCheckItemValue(id_CHECK_DOMDIRECTION) == check_TRUE) p->val = g_strdup("rtl"); else p->val = g_strdup("ltr"); v.addItem(p); } if (_wasChanged(id_SPIN_LEFT_INDENT)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("margin-left"); p->val = g_strdup(_getSpinItemValue(id_SPIN_LEFT_INDENT)); v.addItem(p); } if (_wasChanged(id_SPIN_RIGHT_INDENT)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("margin-right"); p->val = g_strdup(_getSpinItemValue(id_SPIN_RIGHT_INDENT)); v.addItem(p); } // TODO : The logic here might not be bulletproof. If the user triggers // TODO : a change in the TYPE of special indent (hanging, first line, // TODO : none), we will always save what's in the box as a property. // TODO : One could make it smarter with a stronger contract with // TODO : the platform interfaces. if (_getMenuItemValue(id_MENU_SPECIAL_INDENT) && (_wasChanged(id_MENU_SPECIAL_INDENT) || _wasChanged(id_SPIN_SPECIAL_INDENT))) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("text-indent"); tIndentState i = (tIndentState) _getMenuItemValue(id_MENU_SPECIAL_INDENT); if (i == indent_NONE) p->val = g_strdup(UT_convertInchesToDimensionString(m_dim, 0)); else if (i == indent_FIRSTLINE) p->val = g_strdup(_getSpinItemValue(id_SPIN_SPECIAL_INDENT)); else if (i == indent_HANGING) { // we have to flip the sign for "hanging" indents to a negative quantity for // storage in the document as a text-indent // get with no dimension UT_Dimension dim = UT_determineDimension(_getSpinItemValue(id_SPIN_SPECIAL_INDENT)); double val = UT_convertDimensionless(_getSpinItemValue(id_SPIN_SPECIAL_INDENT)); // Convert to inches val = UT_convertDimToInches(val, dim); // flip sign val = val * (double) -1; // store the reconstructed p->val = g_strdup(UT_convertInchesToDimensionString(dim, val)); } v.addItem(p); } if (_wasChanged(id_SPIN_BEFORE_SPACING)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("margin-top"); p->val = g_strdup(_getSpinItemValue(id_SPIN_BEFORE_SPACING)); v.addItem(p); } if (_wasChanged(id_SPIN_AFTER_SPACING)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("margin-bottom"); p->val = g_strdup(_getSpinItemValue(id_SPIN_AFTER_SPACING)); v.addItem(p); } // TODO : The logic here might not be bulletproof. If the user triggers // TODO : a change in the TYPE of special indent (single, double, etc.) // TODO : we will always save what's in the box as a property. // TODO : One could make it smarter with a stronger contract with // TODO : the platform interfaces. if(_getMenuItemValue(id_MENU_SPECIAL_SPACING) && (_wasChanged(id_MENU_SPECIAL_SPACING) || _wasChanged(id_SPIN_SPECIAL_SPACING))) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("line-height"); // normal spacings (single, 1.5, double) are just simple numbers. // "at least" needs a "+" at the end of the number (no units). // "exactly" simply has units. // "multiple" has no units. gchar * pTmp = NULL; const gchar * pString = _getSpinItemValue(id_SPIN_SPECIAL_SPACING); UT_uint32 nSize = 0; switch(_getMenuItemValue(id_MENU_SPECIAL_SPACING)) { case spacing_SINGLE: p->val = g_strdup("1.0"); break; case spacing_ONEANDHALF: p->val = g_strdup("1.5"); break; case spacing_DOUBLE: p->val = g_strdup("2.0"); break; case spacing_ATLEAST: nSize = strlen(pString); pTmp = (gchar *) UT_calloc(nSize + 2, sizeof(gchar)); UT_return_val_if_fail (pTmp, false); strncpy(pTmp, pString, nSize); // stick a '+' at the end pTmp[nSize] = '+'; p->val = g_strdup(pTmp); FREEP(pTmp); break; case spacing_EXACTLY: // fallthrough case spacing_MULTIPLE: // both these cases either do or don't have units associated with them. // the platform dialog code takes care of that. p->val = g_strdup(pString); break; default: UT_ASSERT_HARMLESS(UT_SHOULD_NOT_HAPPEN); } v.addItem(p); } // NOTE : "orphans" and "widows" hold a number specifying the number // NOTE : of lines to consider an orphaned or widowed piece of text. // NOTE : If they're both 0 they're off. If either is greater than // NOTE : 0, then some form of control is in effect. If the property // NOTE : is not set, they're indeterminate. if (_wasChanged(id_CHECK_WIDOW_ORPHAN)) { // TODO : fix this! we stomp on both properties (setting them // TODO : to "2"s or "0"s) if the one check box was ever // TODO : changed { ALLOC_PROP_PAIR(p); p->prop = g_strdup("orphans"); if (_getCheckItemValue(id_CHECK_WIDOW_ORPHAN) == check_TRUE) p->val = g_strdup("2"); else p->val = g_strdup("0"); v.addItem(p); } { ALLOC_PROP_PAIR(p); p->prop = g_strdup("widows"); if (_getCheckItemValue(id_CHECK_WIDOW_ORPHAN) == check_TRUE) p->val = g_strdup("2"); else p->val = g_strdup("0"); v.addItem(p); } } if (_wasChanged(id_CHECK_KEEP_LINES)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("keep-together"); if (_getCheckItemValue(id_CHECK_KEEP_LINES) == check_TRUE) p->val = g_strdup("yes"); else p->val = g_strdup("no"); v.addItem(p); } if (_wasChanged(id_CHECK_KEEP_NEXT)) { ALLOC_PROP_PAIR(p); p->prop = g_strdup("keep-with-next"); if (_getCheckItemValue(id_CHECK_KEEP_NEXT) == check_TRUE) p->val = g_strdup("yes"); else p->val = g_strdup("no"); v.addItem(p); } // TODO : add these to PP_Property (pp_Property.cpp) !!! /* m_pageBreakBefore; m_suppressLineNumbers; m_noHyphenate; */ // export everything in the array UT_uint32 count = v.getItemCount()*2 + 1; const gchar ** newprops = (const gchar **) UT_calloc(count, sizeof(gchar *)); if (!newprops) return false; const gchar ** newitem = newprops; UT_uint32 i = v.getItemCount(); while (i > 0) { p = (propPair *) v.getNthItem(i-1); i--; newitem[0] = p->prop; newitem[1] = p->val; newitem += 2; } // DO purge the vector's CONTENTS, which are just propPair structs UT_VECTOR_FREEALL(propPair *, v); // DO NOT purge the propPair's CONTENTS, because they will be pointed to // by the pointers we just copied into memory typed (gchar **) pProps = newprops; return true; }