dcea29c283
...by moving the char8_t -> char reinterpret_cast out of any potential constexpr paths into a new TranslateId::getId. And demonstrate constexpr'ability by making the aCategories var in OApplicationIconControl::Fill (dbaccess/source/ui/app/AppIconControl.cxx) constexpr. (And there might be more such cases that could now be made constexpr.) Change-Id: I0b4e3292faf8f6b901f9b9e934e1aa6bf0f583ff Reviewed-on: https://gerrit.libreoffice.org/c/core/+/157862 Tested-by: Jenkins Reviewed-by: Stephan Bergmann <sbergman@redhat.com>
411 lines
34 KiB
Text
411 lines
34 KiB
Text
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/*
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* This file is part of the LibreOffice project.
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/.
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*
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* This file incorporates work covered by the following license notice:
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*
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* Licensed to the Apache Software Foundation (ASF) under one or more
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* contributor license agreements. See the NOTICE file distributed
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* with this work for additional information regarding copyright
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* ownership. The ASF licenses this file to you under the Apache
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* License, Version 2.0 (the "License"); you may not use this file
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* except in compliance with the License. You may obtain a copy of
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* the License at http://www.apache.org/licenses/LICENSE-2.0 .
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*/
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/** Those are the starmath codes descriptions for ElementsDockingWindow.hxx.
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*
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* Those codes will be displayed as formulas on the ElementsDockingWindow.
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* The user can then graphically insert them.
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* When passing the mouse over them, those descriptions will be displayed.
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*/
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#pragma once
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#define NC_(Context, String) TranslateId(Context, u8##String)
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// clang-format off
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#define RID_PLUSX_HELP NC_("RID_PLUSX_HELP", "+ Sign" )
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#define RID_MINUSX_HELP NC_("RID_MINUSX_HELP", "- Sign" )
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#define RID_PLUSMINUSX_HELP NC_("RID_PLUSMINUSX_HELP", "+- Sign" )
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#define RID_MINUSPLUSX_HELP NC_("RID_MINUSPLUSX_HELP", "-+ Sign" )
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#define RID_NEGX_HELP NC_("RID_NEGX_HELP", "Boolean NOT" )
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#define RID_XPLUSY_HELP NC_("RID_XPLUSY_HELP", "Addition +" )
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#define RID_XMINUSY_HELP NC_("RID_XMINUSY_HELP", "Subtraction -" )
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#define RID_XCDOTY_HELP NC_("RID_XCDOTY_HELP", "Multiplication (Dot)" )
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#define RID_XTIMESY_HELP NC_("RID_XTIMESY_HELP", "Multiplication (x)" )
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#define RID_XSYMTIMESY_HELP NC_("RID_XSYMTIMESY_HELP", "Multiplication (*)" )
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#define RID_XSYMDIVIDEY_HELP NC_("RID_XSYMDIVIDEY_HELP", "Division (Slash)" )
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#define RID_XDIVY_HELP NC_("RID_XDIVY_HELP", "Division (÷)" )
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#define RID_XOVERY_HELP NC_("RID_XOVERY_HELP", "Division (Fraction)" )
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#define RID_FRACXY_HELP NC_("RID_FRACXY_HELP", "Fraction" )
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#define RID_XODIVIDEY_HELP NC_("RID_XODIVIDEY_HELP", "Circled Slash" )
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#define RID_XODOTY_HELP NC_("RID_XODOTY_HELP", "Circled Dot" )
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#define RID_XOMINUSY_HELP NC_("RID_XOMINUSY_HELP", "Circled Minus" )
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#define RID_XOPLUSY_HELP NC_("RID_XOPLUSY_HELP", "Circled Plus" )
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#define RID_XOTIMESY_HELP NC_("RID_XOTIMESY_HELP", "Tensor Product" )
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#define RID_XANDY_HELP NC_("RID_XANDY_HELP", "Boolean AND" )
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#define RID_XORY_HELP NC_("RID_XORY_HELP", "Boolean OR" )
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#define RID_XEQY_HELP NC_("RID_XEQY_HELP", "Is Equal" )
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#define RID_XNEQY_HELP NC_("RID_XNEQY_HELP", "Is Not Equal" )
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#define RID_XLTY_HELP NC_("RID_XLTY_HELP", "Is Less Than" )
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#define RID_XGTY_HELP NC_("RID_XGTY_HELP", "Is Greater Than" )
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#define RID_XLEY_HELP NC_("RID_XLEY_HELP", "Is Less Than Or Equal To" )
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#define RID_XGEY_HELP NC_("RID_XGEY_HELP", "Is Greater Than Or Equal To" )
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#define RID_XLESLANTY_HELP NC_("RID_XLESLANTY_HELP", "Is Less Than Or Equal To" )
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#define RID_XGESLANTY_HELP NC_("RID_XGESLANTY_HELP", "Is Greater Than Or Equal To" )
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#define RID_XLLY_HELP NC_("RID_XLLY_HELP", "Is Much Less Than" )
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#define RID_XGGY_HELP NC_("RID_XGGY_HELP", "Is Much Greater Than" )
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#define RID_XDEFY_HELP NC_("RID_XDEFY_HELP", "Is Defined As" )
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#define RID_XEQUIVY_HELP NC_("RID_XEQUIVY_HELP", "Is Congruent To" )
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#define RID_XAPPROXY_HELP NC_("RID_XAPPROXY_HELP", "Is Approximately Equal" )
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#define RID_XSIMY_HELP NC_("RID_XSIMY_HELP", "Is Similar To" )
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#define RID_XSIMEQY_HELP NC_("RID_XSIMEQY_HELP", "Is Similar Or Equal" )
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#define RID_XPROPY_HELP NC_("RID_XPROPY_HELP", "Is Proportional To" )
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#define RID_XORTHOY_HELP NC_("RID_XORTHOY_HELP", "Is Orthogonal To" )
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#define RID_XPARALLELY_HELP NC_("RID_XPARALLELY_HELP", "Is Parallel To" )
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#define RID_XTOWARDY_HELP NC_("RID_XTOWARDY_HELP", "Toward" )
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#define RID_XTRANSLY_HELP NC_("RID_XTRANSLY_HELP", "Corresponds To (Left)" )
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#define RID_XTRANSRY_HELP NC_("RID_XTRANSRY_HELP", "Corresponds To (Right)" )
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#define RID_XINY_HELP NC_("RID_XINY_HELP", "Is In" )
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#define RID_XNOTINY_HELP NC_("RID_XNOTINY_HELP", "Is Not In" )
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#define RID_XOWNSY_HELP NC_("RID_XOWNSY_HELP", "Owns" )
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#define RID_XUNIONY_HELP NC_("RID_XUNIONY_HELP", "Union" )
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#define RID_XINTERSECTIONY_HELP NC_("RID_XINTERSECTIONY_HELP", "Intersection" )
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#define RID_XSETMINUSY_HELP NC_("RID_XSETMINUSY_HELP", "Difference" )
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#define RID_XSETQUOTIENTY_HELP NC_("RID_XSETQUOTIENTY_HELP", "Quotient Set" )
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#define RID_XSUBSETY_HELP NC_("RID_XSUBSETY_HELP", "Subset" )
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#define RID_XSUBSETEQY_HELP NC_("RID_XSUBSETEQY_HELP", "Subset Or Equal To" )
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#define RID_XSUPSETY_HELP NC_("RID_XSUPSETY_HELP", "Superset" )
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#define RID_XSUPSETEQY_HELP NC_("RID_XSUPSETEQY_HELP", "Superset Or Equal To" )
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#define RID_XNSUBSETY_HELP NC_("RID_XNSUBSETY_HELP", "Not Subset" )
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#define RID_XNSUBSETEQY_HELP NC_("RID_XNSUBSETEQY_HELP", "Not Subset Or Equal" )
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#define RID_XNSUPSETY_HELP NC_("RID_XNSUPSETY_HELP", "Not Superset" )
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#define RID_XNSUPSETEQY_HELP NC_("RID_XNSUPSETEQY_HELP", "Not Superset Or Equal" )
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#define RID_FUNCX_HELP NC_("RID_FUNCX_HELP", "General function" )
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#define RID_ABSX_HELP NC_("RID_ABSX_HELP", "Absolute Value" )
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#define RID_FACTX_HELP NC_("RID_FACTX_HELP", "Factorial" )
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#define RID_SQRTX_HELP NC_("RID_SQRTX_HELP", "Square Root" )
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#define RID_NROOTXY_HELP NC_("RID_NROOTXY_HELP", "N-th Root" )
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#define RID_EX_HELP NC_("RID_EX_HELP", "Exponential Function" )
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#define RID_EXPX_HELP NC_("RID_EXPX_HELP", "Exponential Function" )
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#define RID_LNX_HELP NC_("RID_LNX_HELP", "Natural Logarithm" )
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#define RID_LOGX_HELP NC_("RID_LOGX_HELP", "Logarithm" )
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#define RID_SINX_HELP NC_("RID_SINX_HELP", "Sine" )
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#define RID_COSX_HELP NC_("RID_COSX_HELP", "Cosine" )
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#define RID_TANX_HELP NC_("RID_TANX_HELP", "Tangent" )
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#define RID_COTX_HELP NC_("RID_COTX_HELP", "Cotangent" )
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#define RID_ARCSINX_HELP NC_("RID_ARCSINX_HELP", "Arcsine" )
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#define RID_ARCCOSX_HELP NC_("RID_ARCCOSX_HELP", "Arccosine" )
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#define RID_ARCTANX_HELP NC_("RID_ARCTANX_HELP", "Arctangent" )
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#define RID_ARCCOTX_HELP NC_("RID_ARCCOTX_HELP", "Arccotangent" )
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#define RID_SINHX_HELP NC_("RID_SINHX_HELP", "Hyperbolic Sine" )
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#define RID_COSHX_HELP NC_("RID_COSHX_HELP", "Hyperbolic Cosine" )
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#define RID_TANHX_HELP NC_("RID_TANHX_HELP", "Hyperbolic Tangent" )
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#define RID_COTHX_HELP NC_("RID_COTHX_HELP", "Hyperbolic Cotangent" )
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#define RID_ARSINHX_HELP NC_("RID_ARSINHX_HELP", "Area Hyperbolic Sine" )
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#define RID_ARCOSHX_HELP NC_("RID_ARCOSHX_HELP", "Area Hyperbolic Cosine" )
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#define RID_ARTANHX_HELP NC_("RID_ARTANHX_HELP", "Area Hyperbolic Tangent" )
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#define RID_ARCOTHX_HELP NC_("RID_ARCOTHX_HELP", "Area Hyperbolic Cotangent" )
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#define RID_OPERX_HELP NC_("RID_OPERX_HELP", "General operator" )
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#define RID_OPER_FROMX_HELP NC_("RID_OPER_FROMX_HELP", "General operator Subscript Bottom" )
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#define RID_OPER_TOX_HELP NC_("RID_OPER_TOX_HELP", "General operator Superscript Top" )
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#define RID_OPER_FROMTOX_HELP NC_("RID_OPER_FROMTOX_HELP", "General operator Sup/Sub script" )
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#define RID_SUMX_HELP NC_("RID_SUMX_HELP", "Sum" )
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#define RID_SUM_FROMX_HELP NC_("RID_SUM_FROMX_HELP", "Sum Subscript Bottom" )
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#define RID_SUM_TOX_HELP NC_("RID_SUM_TOX_HELP", "Sum Superscript Top" )
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#define RID_SUM_FROMTOX_HELP NC_("RID_SUM_FROMTOX_HELP", "Sum Sup/Sub script" )
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#define RID_MAJX_HELP NC_("RID_MAJX_HELP", "Summation (Arabic)" )
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#define RID_MAJ_FROMX_HELP NC_("RID_MAJ_FROMX_HELP", "Summation Subscript Bottom (Arabic)" )
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#define RID_MAJ_TOX_HELP NC_("RID_MAJ_TOX_HELP", "Summation Superscript Top (Arabic)" )
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#define RID_MAJ_FROMTOX_HELP NC_("RID_MAJ_FROMTOX_HELP", "Summation Sup/Sub script (Arabic)" )
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#define RID_PRODX_HELP NC_("RID_PRODX_HELP", "Product" )
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#define RID_PROD_FROMX_HELP NC_("RID_PROD_FROMX_HELP", "Product Subscript Bottom" )
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#define RID_PROD_TOX_HELP NC_("RID_PROD_TOX_HELP", "Product Superscript Top" )
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#define RID_PROD_FROMTOX_HELP NC_("RID_PROD_FROMTOX_HELP", "Product Sup/Sub script" )
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#define RID_COPRODX_HELP NC_("RID_COPRODX_HELP", "Coproduct" )
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#define RID_COPROD_FROMX_HELP NC_("RID_COPROD_FROMX_HELP", "Coproduct Subscript Bottom" )
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#define RID_COPROD_TOX_HELP NC_("RID_COPROD_TOX_HELP", "Coproduct Superscript Top" )
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#define RID_COPROD_FROMTOX_HELP NC_("RID_COPROD_FROMTOX_HELP", "Coproduct Sup/Sub script" )
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#define RID_LIMX_HELP NC_("RID_LIMX_HELP", "Limes" )
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#define RID_LIM_FROMX_HELP NC_("RID_LIM_FROMX_HELP", "Limes Subscript Bottom" )
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#define RID_LIM_TOX_HELP NC_("RID_LIM_TOX_HELP", "Limes Superscript Top" )
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#define RID_LIM_FROMTOX_HELP NC_("RID_LIM_FROMTOX_HELP", "Limes Sup/Sub script" )
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#define RID_LIMINFX_HELP NC_("RID_LIMINFX_HELP", "Limit Inferior" )
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#define RID_LIMINF_FROMX_HELP NC_("RID_LIMINF_FROMX_HELP", "Limit Inferior Subscript Bottom" )
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#define RID_LIMINF_TOX_HELP NC_("RID_LIMINF_TOX_HELP", "Limit Inferior Superscript Top" )
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#define RID_LIMINF_FROMTOX_HELP NC_("RID_LIMINF_FROMTOX_HELP", "Limit Inferior Sup/Sub script" )
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#define RID_LIMSUPX_HELP NC_("RID_LIMSUPX_HELP", "Limit Superior" )
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#define RID_LIMSUP_FROMX_HELP NC_("RID_LIMSUP_FROMX_HELP", "Limit Superior Subscript Bottom" )
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#define RID_LIMSUP_TOX_HELP NC_("RID_LIMSUP_TOX_HELP", "Limit Superior Superscript Top" )
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#define RID_LIMSUP_FROMTOX_HELP NC_("RID_LIMSUP_FROMTOX_HELP", "Limit Superior Sup/Sub script" )
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#define RID_HADDX_HELP NC_("RID_HADDX_HELP", "Limits (Persian)" )
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#define RID_HADD_FROMX_HELP NC_("RID_HADD_FROMX_HELP", "Limits Subscript Bottom (Persian)" )
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#define RID_HADD_TOX_HELP NC_("RID_HADD_TOX_HELP", "Limits Superscript Top (Persian)" )
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#define RID_HADD_FROMTOX_HELP NC_("RID_HADD_FROMTOX_HELP", "Limits Sup/Sub script (Persian)" )
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#define RID_EXISTS_HELP NC_("RID_EXISTS_HELP", "There Exists" )
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#define RID_NOTEXISTS_HELP NC_("RID_NOTEXISTS_HELP", "There does not exist" )
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#define RID_FORALL_HELP NC_("RID_FORALL_HELP", "For all" )
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#define RID_INTX_HELP NC_("RID_INTX_HELP", "Integral" )
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#define RID_INT_FROMX_HELP NC_("RID_INT_FROMX_HELP", "Integral Subscript Bottom" )
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#define RID_INT_TOX_HELP NC_("RID_INT_TOX_HELP", "Integral Superscript Top" )
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#define RID_INT_FROMTOX_HELP NC_("RID_INT_FROMTOX_HELP", "Integral Sup/Sub script" )
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#define RID_IINTX_HELP NC_("RID_IINTX_HELP", "Double Integral" )
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#define RID_IINT_FROMX_HELP NC_("RID_IINT_FROMX_HELP", "Double Integral Subscript Bottom" )
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#define RID_IINT_TOX_HELP NC_("RID_IINT_TOX_HELP", "Double Integral Superscript Top" )
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#define RID_IINT_FROMTOX_HELP NC_("RID_IINT_FROMTOX_HELP", "Double Integral Sup/Sub script" )
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#define RID_IIINTX_HELP NC_("RID_IIINTX_HELP", "Triple Integral" )
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#define RID_IIINT_FROMX_HELP NC_("RID_IIINT_FROMX_HELP", "Triple Integral Subscript Bottom" )
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#define RID_IIINT_TOX_HELP NC_("RID_IIINT_TOX_HELP", "Triple Integral Superscript Top" )
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#define RID_IIINT_FROMTOX_HELP NC_("RID_IIINT_FROMTOX_HELP", "Triple Integral Sup/Sub script" )
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#define RID_LINTX_HELP NC_("RID_LINTX_HELP", "Curve Integral" )
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#define RID_LINT_FROMX_HELP NC_("RID_LINT_FROMX_HELP", "Curve Integral Subscript Bottom" )
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#define RID_LINT_TOX_HELP NC_("RID_LINT_TOX_HELP", "Curve Integral Superscript Top" )
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#define RID_LINT_FROMTOX_HELP NC_("RID_LINT_FROMTOX_HELP", "Curve Integral Sup/Sub script" )
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#define RID_LLINTX_HELP NC_("RID_LLINTX_HELP", "Double Curve Integral" )
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#define RID_LLINT_FROMX_HELP NC_("RID_LLINT_FROMX_HELP", "Double Curve Integral Subscript Bottom" )
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#define RID_LLINT_TOX_HELP NC_("RID_LLINT_TOX_HELP", "Double Curve Integral Superscript Top" )
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#define RID_LLINT_FROMTOX_HELP NC_("RID_LLINT_FROMTOX_HELP", "Double Curve Integral Sup/Sub script" )
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#define RID_LLLINTX_HELP NC_("RID_LLLINTX_HELP", "Triple Curve Integral" )
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#define RID_LLLINT_FROMX_HELP NC_("RID_LLLINT_FROMX_HELP", "Triple Curve Integral Subscript Bottom" )
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#define RID_LLLINT_TOX_HELP NC_("RID_LLLINT_TOX_HELP", "Triple Curve Integral Superscript Top" )
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#define RID_LLLINT_FROMTOX_HELP NC_("RID_LLLINT_FROMTOX_HELP", "Triple Curve Integral Sup/Sub script" )
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#define RID_ACUTEX_HELP NC_("RID_ACUTEX_HELP", "Acute Accent" )
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#define RID_BARX_HELP NC_("RID_BARX_HELP", "Line Above" )
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#define RID_BREVEX_HELP NC_("RID_BREVEX_HELP", "Breve" )
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#define RID_CHECKX_HELP NC_("RID_CHECKX_HELP", "Reverse Circumflex" )
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#define RID_CIRCLEX_HELP NC_("RID_CIRCLEX_HELP", "Circle" )
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#define RID_DOTX_HELP NC_("RID_DOTX_HELP", "Dot" )
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#define RID_DDOTX_HELP NC_("RID_DDOTX_HELP", "Double Dot" )
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#define RID_DDDOTX_HELP NC_("RID_DDDOTX_HELP", "Triple Dot" )
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#define RID_GRAVEX_HELP NC_("RID_GRAVEX_HELP", "Grave Accent" )
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#define RID_HATX_HELP NC_("RID_HATX_HELP", "Circumflex" )
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#define RID_TILDEX_HELP NC_("RID_TILDEX_HELP", "Tilde" )
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#define RID_VECX_HELP NC_("RID_VECX_HELP", "Vector Arrow" )
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#define RID_HARPOONX_HELP NC_("RID_HARPOONX_HELP", "Harpoon" )
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#define RID_UNDERLINEX_HELP NC_("RID_UNDERLINEX_HELP", "Line Below" )
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#define RID_OVERLINEX_HELP NC_("RID_OVERLINEX_HELP", "Line Over" )
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#define RID_OVERSTRIKEX_HELP NC_("RID_OVERSTRIKEX_HELP", "Line Through" )
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#define RID_PHANTOMX_HELP NC_("RID_PHANTOMX_HELP", "Transparent" )
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#define RID_BOLDX_HELP NC_("RID_BOLDX_HELP", "Bold Font" )
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#define RID_ITALX_HELP NC_("RID_ITALX_HELP", "Italic Font" )
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#define RID_SIZEXY_HELP NC_("RID_SIZEXY_HELP", "Resize" )
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#define RID_FONTXY_HELP NC_("RID_FONTXY_HELP", "Change Font" )
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#define RID_COLORX_BLACK_HELP NC_("RID_COLORX_BLACK_HELP", "Color Black" )
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#define RID_COLORX_BLUE_HELP NC_("RID_COLORX_BLUE_HELP", "Color Blue" )
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#define RID_COLORX_GREEN_HELP NC_("RID_COLORX_GREEN_HELP", "Color Green" )
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#define RID_COLORX_RED_HELP NC_("RID_COLORX_RED_HELP", "Color Red" )
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#define RID_COLORX_AQUA_HELP NC_("RID_COLORX_AQUA_HELP", "Color Aqua" )
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#define RID_COLORX_FUCHSIA_HELP NC_("RID_COLORX_FUCHSIA_HELP", "Color Fuchsia" )
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#define RID_COLORX_GRAY_HELP NC_("RID_COLORX_GRAY_HELP", "Color Gray" )
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#define RID_COLORX_LIME_HELP NC_("RID_COLORX_LIME_HELP", "Color Lime" )
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#define RID_COLORX_MAROON_HELP NC_("RID_COLORX_MAROON_HELP", "Color Maroon" )
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#define RID_COLORX_NAVY_HELP NC_("RID_COLORX_NAVY_HELP", "Color Navy" )
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#define RID_COLORX_OLIVE_HELP NC_("RID_COLORX_OLIVE_HELP", "Color Olive" )
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#define RID_COLORX_PURPLE_HELP NC_("RID_COLORX_PURPLE_HELP", "Color Purple" )
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#define RID_COLORX_SILVER_HELP NC_("RID_COLORX_SILVER_HELP", "Color Silver" )
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#define RID_COLORX_TEAL_HELP NC_("RID_COLORX_TEAL_HELP", "Color Teal" )
|
||
#define RID_COLORX_YELLOW_HELP NC_("RID_COLORX_YELLOW_HELP", "Color Yellow" )
|
||
#define RID_COLORX_RGB_HELP NC_("RID_COLORX_RGB_HELP", "Color RGB" )
|
||
#define RID_COLORX_RGBA_HELP NC_("RID_COLORX_RGBA_HELP", "Color RGBA" )
|
||
#define RID_COLORX_HEX_HELP NC_("RID_COLORX_HEX_HELP", "Color hexadecimal" )
|
||
#define RID_COLORX_CORAL_HELP NC_("RID_COLORX_CORAL_HELP", "Color Coral" )
|
||
#define RID_COLORX_CRIMSON_HELP NC_("RID_COLORX_CRIMSON_HELP", "Color Crimson" )
|
||
#define RID_COLORX_MIDNIGHT_HELP NC_("RID_COLORX_MIDNIGHT_HELP", "Color Midnight blue" )
|
||
#define RID_COLORX_VIOLET_HELP NC_("RID_COLORX_VIOLET_HELP", "Color Violet" )
|
||
#define RID_COLORX_ORANGE_HELP NC_("RID_COLORX_ORANGE_HELP", "Color Orange" )
|
||
#define RID_COLORX_ORANGERED_HELP NC_("RID_COLORX_ORANGERED_HELP", "Color Orangered" )
|
||
#define RID_COLORX_SEAGREEN_HELP NC_("RID_COLORX_SEAGREEN_HELP", "Color Seagreen" )
|
||
#define RID_COLORX_INDIGO_HELP NC_("RID_COLORX_INDIGO_HELP", "Color Indigo" )
|
||
#define RID_COLORX_HOTPINK_HELP NC_("RID_COLORX_HOTPINK_HELP", "Color Hot pink" )
|
||
#define RID_COLORX_LAVENDER_HELP NC_("RID_COLORX_LAVENDER_HELP", "Color Lavender" )
|
||
#define RID_COLORX_SNOW_HELP NC_("RID_COLORX_SNOW_HELP", "Color Snow" )
|
||
#define RID_LRGROUPX_HELP NC_("RID_LRGROUPX_HELP", "Group Brackets" )
|
||
#define RID_LRPARENTX_HELP NC_("RID_LRPARENTX_HELP", "Round Brackets" )
|
||
#define RID_LRBRACKETX_HELP NC_("RID_LRBRACKETX_HELP", "Square Brackets" )
|
||
#define RID_LRDBRACKETX_HELP NC_("RID_LRDBRACKETX_HELP", "Double Square Brackets" )
|
||
#define RID_LRBRACEX_HELP NC_("RID_LRBRACEX_HELP", "Braces" )
|
||
#define RID_LRANGLEX_HELP NC_("RID_LRANGLEX_HELP", "Angle Brackets" )
|
||
#define RID_LRCEILX_HELP NC_("RID_LRCEILX_HELP", "Upper Ceil" )
|
||
#define RID_LRFLOORX_HELP NC_("RID_LRFLOORX_HELP", "Floor" )
|
||
#define RID_LRLINEX_HELP NC_("RID_LRLINEX_HELP", "Single Lines" )
|
||
#define RID_LRDLINEX_HELP NC_("RID_LRDLINEX_HELP", "Double Lines" )
|
||
#define RID_LMRANGLEXY_HELP NC_("RID_LMRANGLEXY_HELP", "Operator Brackets" )
|
||
#define RID_SLRPARENTX_HELP NC_("RID_SLRPARENTX_HELP", "Round Brackets (Scalable)" )
|
||
#define RID_SLRBRACKETX_HELP NC_("RID_SLRBRACKETX_HELP", "Square Brackets (Scalable)" )
|
||
#define RID_SLRDBRACKETX_HELP NC_("RID_SLRDBRACKETX_HELP", "Double Square Brackets (Scalable)" )
|
||
#define RID_SLRBRACEX_HELP NC_("RID_SLRBRACEX_HELP", "Braces (Scalable)" )
|
||
#define RID_SLRANGLEX_HELP NC_("RID_SLRANGLEX_HELP", "Angle Brackets (Scalable)" )
|
||
#define RID_SLRCEILX_HELP NC_("RID_SLRCEILX_HELP", "Ceiling (Scalable)" )
|
||
#define RID_SLRFLOORX_HELP NC_("RID_SLRFLOORX_HELP", "Floor (Scalable)" )
|
||
#define RID_SLRLINEX_HELP NC_("RID_SLRLINEX_HELP", "Single Lines (Scalable)" )
|
||
#define RID_SLRDLINEX_HELP NC_("RID_SLRDLINEX_HELP", "Double Lines (Scalable)" )
|
||
#define RID_SLMRANGLEXY_HELP NC_("RID_SLMRANGLEXY_HELP", "Operator Brackets (Scalable)" )
|
||
#define RID_XOVERBRACEY_HELP NC_("RID_XOVERBRACEY_HELP", "Braces Top (Scalable)" )
|
||
#define RID_XUNDERBRACEY_HELP NC_("RID_XUNDERBRACEY_HELP", "Braces Bottom (Scalable)" )
|
||
#define RID_EVALUATEX_HELP NC_("RID_EVALUATEX_HELP", "Evaluate" )
|
||
#define RID_EVALUATE_FROMX_HELP NC_("RID_EVALUATE_FROMX_HELP", "Evaluate Subscript Bottom" )
|
||
#define RID_EVALUATE_TOX_HELP NC_("RID_EVALUATE_TOX_HELP", "Evaluate Superscript Top" )
|
||
#define RID_EVALUATE_FROMTOX_HELP NC_("RID_EVALUATE_FROMTOX_HELP", "Evaluate Sup/Sub script" )
|
||
#define RID_RSUBX_HELP NC_("RID_RSUBX_HELP", "Subscript Right" )
|
||
#define RID_RSUPX_HELP NC_("RID_RSUPX_HELP", "Power" )
|
||
#define RID_LSUBX_HELP NC_("RID_LSUBX_HELP", "Subscript Left" )
|
||
#define RID_LSUPX_HELP NC_("RID_LSUPX_HELP", "Superscript Left" )
|
||
#define RID_CSUBX_HELP NC_("RID_CSUBX_HELP", "Subscript Bottom" )
|
||
#define RID_CSUPX_HELP NC_("RID_CSUPX_HELP", "Superscript Top" )
|
||
#define RID_SBLANK_HELP NC_("RID_SBLANK_HELP", "Small Gap" )
|
||
#define RID_BLANK_HELP NC_("RID_BLANK_HELP", "Blank" )
|
||
#define RID_NEWLINE_HELP NC_("RID_NEWLINE_HELP", "New Line" )
|
||
#define RID_BINOMXY_HELP NC_("RID_BINOMXY_HELP", "Vertical Stack (2 Elements)")
|
||
#define RID_STACK_HELP NC_("RID_STACK_HELP", "Vertical Stack" )
|
||
#define RID_MATRIX_HELP NC_("RID_MATRIX_HELP", "Matrix Stack" )
|
||
#define RID_ALIGNLX_HELP NC_("RID_ALIGNLX_HELP", "Align Left" )
|
||
#define RID_ALIGNCX_HELP NC_("RID_ALIGNCX_HELP", "Align Center" )
|
||
#define RID_ALIGNRX_HELP NC_("RID_ALIGNRX_HELP", "Align Right" )
|
||
#define RID_ALEPH_HELP NC_("RID_ALEPH_HELP", "Aleph" )
|
||
#define RID_EMPTYSET_HELP NC_("RID_EMPTYSET_HELP", "Empty Set" )
|
||
#define RID_RE_HELP NC_("RID_RE_HELP", "Real Part" )
|
||
#define RID_IM_HELP NC_("RID_IM_HELP", "Imaginary Part" )
|
||
#define RID_INFINITY_HELP NC_("RID_INFINITY_HELP", "Infinity" )
|
||
#define RID_PARTIAL_HELP NC_("RID_PARTIAL_HELP", "Partial" )
|
||
#define RID_NABLA_HELP NC_("RID_NABLA_HELP", "Nabla" )
|
||
#define RID_LAPLACE_HELP NC_("RID_LAPLACE_HELP", "Laplace transform" )
|
||
#define RID_FOURIER_HELP NC_("RID_FOURIER_HELP", "Fourier transform" )
|
||
#define RID_BACKEPSILON_HELP NC_("RID_BACKEPSILON_HELP", "Backwards epsilon" )
|
||
#define RID_WP_HELP NC_("RID_WP_HELP", "Weierstrass p" )
|
||
#define RID_DOTSAXIS_HELP NC_("RID_DOTSAXIS_HELP", "Dots In Middle" )
|
||
#define RID_DOTSUP_HELP NC_("RID_DOTSUP_HELP", "Dots To Top" )
|
||
#define RID_DOTSDOWN_HELP NC_("RID_DOTSDOWN_HELP", "Dots To Bottom" )
|
||
#define RID_DOTSLOW_HELP NC_("RID_DOTSLOW_HELP", "Dots At Bottom" )
|
||
#define RID_DOTSVERT_HELP NC_("RID_DOTSVERT_HELP", "Dots Vertically" )
|
||
#define RID_XCIRCY_HELP NC_("RID_XCIRCY_HELP", "Concatenate" )
|
||
#define RID_XWIDESLASHY_HELP NC_("RID_XWIDESLASHY_HELP", "Division (wideslash)" )
|
||
#define RID_XWIDEBSLASHY_HELP NC_("RID_XWIDEBSLASHY_HELP", "Division (counter wideslash)" )
|
||
#define RID_XDIVIDESY_HELP NC_("RID_XDIVIDESY_HELP", "Divides" )
|
||
#define RID_XNDIVIDESY_HELP NC_("RID_XNDIVIDESY_HELP", "Does Not Divide" )
|
||
#define RID_DLARROW_HELP NC_("RID_DLARROW_HELP", "Double Arrow Left" )
|
||
#define RID_DLRARROW_HELP NC_("RID_DLRARROW_HELP", "Double Arrow Left And Right" )
|
||
#define RID_DRARROW_HELP NC_("RID_DRARROW_HELP", "Double Arrow Right" )
|
||
#define RID_SETN_HELP NC_("RID_SETN_HELP", "Natural Numbers Set" )
|
||
#define RID_SETZ_HELP NC_("RID_SETZ_HELP", "Integers Set" )
|
||
#define RID_SETQ_HELP NC_("RID_SETQ_HELP", "Set of Rational Numbers" )
|
||
#define RID_SETR_HELP NC_("RID_SETR_HELP", "Real Numbers Set" )
|
||
#define RID_SETC_HELP NC_("RID_SETC_HELP", "Complex Numbers Set" )
|
||
#define RID_WIDEHATX_HELP NC_("RID_WIDEHATX_HELP", "Large Circumflex" )
|
||
#define RID_WIDETILDEX_HELP NC_("RID_WIDETILDEX_HELP", "Large Tilde" )
|
||
#define RID_WIDEVECX_HELP NC_("RID_WIDEVECX_HELP", "Large Vector Arrow" )
|
||
#define RID_WIDEHARPOONX_HELP NC_("RID_WIDEHARPOONX_HELP", "Large Harpoon" )
|
||
#define RID_HBAR_HELP NC_("RID_HBAR_HELP", "h Bar" )
|
||
#define RID_LAMBDABAR_HELP NC_("RID_LAMBDABAR_HELP", "Lambda Bar" )
|
||
#define RID_LEFTARROW_HELP NC_("RID_LEFTARROW_HELP", "Left Arrow" )
|
||
#define RID_RIGHTARROW_HELP NC_("RID_RIGHTARROW_HELP", "Right Arrow" )
|
||
#define RID_UPARROW_HELP NC_("RID_UPARROW_HELP", "Up Arrow" )
|
||
#define RID_DOWNARROW_HELP NC_("RID_DOWNARROW_HELP", "Down Arrow" )
|
||
#define RID_NOSPACE_HELP NC_("RID_NOSPACE_HELP", "No space" )
|
||
#define RID_XPRECEDESY_HELP NC_("RID_XPRECEDESY_HELP", "Precedes" )
|
||
#define RID_XPRECEDESEQUALY_HELP NC_("RID_XPRECEDESEQUALY_HELP", "Precedes or equal to" )
|
||
#define RID_XPRECEDESEQUIVY_HELP NC_("RID_XPRECEDESEQUIVY_HELP", "Precedes or equivalent to" )
|
||
#define RID_XSUCCEEDSY_HELP NC_("RID_XSUCCEEDSY_HELP", "Succeeds" )
|
||
#define RID_XSUCCEEDSEQUALY_HELP NC_("RID_XSUCCEEDSEQUALY_HELP", "Succeeds or equal to" )
|
||
#define RID_XSUCCEEDSEQUIVY_HELP NC_("RID_XSUCCEEDSEQUIVY_HELP", "Succeeds or equivalent to" )
|
||
#define RID_XNOTPRECEDESY_HELP NC_("RID_XNOTPRECEDESY_HELP", "Does not precede" )
|
||
#define RID_XNOTSUCCEEDSY_HELP NC_("RID_XNOTSUCCEEDSY_HELP", "Does not succeed" )
|
||
#define RID_CATEGORY_UNARY_BINARY_OPERATORS NC_("RID_CATEGORY_UNARY_BINARY_OPERATORS", "Unary/Binary Operators" )
|
||
#define RID_CATEGORY_RELATIONS NC_("RID_CATEGORY_RELATIONS", "Relations" )
|
||
#define RID_CATEGORY_SET_OPERATIONS NC_("RID_CATEGORY_SET_OPERATIONS", "Set Operations" )
|
||
#define RID_CATEGORY_FUNCTIONS NC_("RID_CATEGORY_FUNCTIONS", "Functions" )
|
||
#define RID_CATEGORY_OPERATORS NC_("RID_CATEGORY_OPERATORS", "Operators" )
|
||
#define RID_CATEGORY_ATTRIBUTES NC_("RID_CATEGORY_ATTRIBUTES", "Attributes" )
|
||
#define RID_CATEGORY_BRACKETS NC_("RID_CATEGORY_BRACKETS", "Brackets" )
|
||
#define RID_CATEGORY_FORMATS NC_("RID_CATEGORY_FORMATS", "Formats" )
|
||
#define RID_CATEGORY_OTHERS NC_("RID_CATEGORY_OTHERS", "Others" )
|
||
#define RID_CATEGORY_EXAMPLES NC_("RID_CATEGORY_EXAMPLES", "Examples" )
|
||
|
||
#define RID_EXAMPLE_CIRCUMFERENCE_HELP NC_("RID_EXAMPLE_CIRCUMFERENCE_HELP", "Circumference" )
|
||
#define RID_EXAMPLE_MASS_ENERGY_EQUIV_HELP NC_("RID_EXAMPLE_MASS_ENERGY_EQUIV_HELP", "Mass–energy equivalence" )
|
||
#define RID_EXAMPLE_PYTHAGOREAN_THEO_HELP NC_("RID_EXAMPLE_PYTHAGOREAN_THEO_HELP", "Pythagorean theorem" )
|
||
#define RID_EXAMPLE_A_TAYLOR_SERIES_HELP NC_("RID_EXAMPLE_A_TAYLOR_SERIES_HELP", "Taylor series" )
|
||
#define RID_EXAMPLE_GAUSS_DISTRIBUTION_HELP NC_("RID_EXAMPLE_GAUSS_DISTRIBUTION_HELP", "Gauss distribution" )
|
||
#define RID_EXAMPLE_EULER_LAGRANGE_HELP NC_("RID_EXAMPLE_EULER_LAGRANGE_HELP", "Euler-Lagrange equation" )
|
||
#define RID_EXAMPLE_FTC_HELP NC_("RID_EXAMPLE_FTC_HELP", "Fundamental theorem of calculus" )
|
||
#define RID_EXAMPLE_CHAOS_HELP NC_("RID_EXAMPLE_CHAOS_HELP", "Chaos equation" )
|
||
#define RID_EXAMPLE_EULER_IDENTITY_HELP NC_("RID_EXAMPLE_EULER_IDENTITY_HELP", "Euler's identity" )
|
||
#define RID_EXAMPLE_2NEWTON NC_("RID_EXAMPLE_2NEWTON", "Newton's second law" )
|
||
#define RID_EXAMPLE_GENERAL_RELATIVITY_HELP NC_("RID_EXAMPLE_GENERAL_RELATIVITY_HELP", "General relativity")
|
||
#define RID_EXAMPLE_SPECIAL_RELATIVITY_HELP NC_("RID_EXAMPLE_SPECIAL_RELATIVITY_HELP", "Special relativity")
|
||
|
||
#define RID_FONTREGULAR NC_("RID_FONTREGULAR", "Standard" )
|
||
#define RID_FONTITALIC NC_("RID_FONTITALIC", "Italic" )
|
||
#define RID_FONTBOLD NC_("RID_FONTBOLD", "Bold" )
|
||
#define STR_BLACK NC_("STR_BLACK", "black" )
|
||
#define STR_BLUE NC_("STR_BLUE", "blue" )
|
||
#define STR_GREEN NC_("STR_GREEN", "green" )
|
||
#define STR_RED NC_("STR_RED", "red" )
|
||
#define STR_AQUA NC_("STR_AQUA", "aqua" )
|
||
#define STR_FUCHSIA NC_("STR_FUCHSIA", "fuchsia" )
|
||
#define STR_GRAY NC_("STR_GRAY", "gray" )
|
||
#define STR_LIME NC_("STR_LIME", "lime" )
|
||
#define STR_MAROON NC_("STR_MAROON", "maroon" )
|
||
#define STR_NAVY NC_("STR_NAVY", "navy" )
|
||
#define STR_OLIVE NC_("STR_OLIVE", "olive" )
|
||
#define STR_PURPLE NC_("STR_PURPLE", "purple" )
|
||
#define STR_SILVER NC_("STR_SILVER", "silver" )
|
||
#define STR_TEAL NC_("STR_TEAL", "teal" )
|
||
#define STR_YELLOW NC_("STR_YELLOW", "yellow" )
|
||
#define STR_CORAL NC_("STR_CORAL", "coral" )
|
||
#define STR_CRIMSON NC_("STR_CRIMSON", "crimson" )
|
||
#define STR_MIDNIGHT NC_("STR_MIDNIGHT", "midnight" )
|
||
#define STR_VIOLET NC_("STR_VIOLET", "violet" )
|
||
#define STR_ORANGE NC_("STR_ORANGE", "orange" )
|
||
#define STR_ORANGERED NC_("STR_ORANGERED", "orangered" )
|
||
#define STR_LAVENDER NC_("STR_LAVENDER", "lavender" )
|
||
#define STR_SNOW NC_("STR_SNOW", "snow" )
|
||
#define STR_SEAGREEN NC_("STR_SEAGREEN", "seagreen" )
|
||
#define STR_INDIGO NC_("STR_INDIGO", "indigo" )
|
||
#define STR_HOTPINK NC_("STR_HOTPINK", "hotpink" )
|
||
#define STR_RGB NC_("STR_RGB", "rgb" )
|
||
#define STR_RGBA NC_("STR_RGBA", "rgba" )
|
||
#define STR_HEX NC_("STR_HEX", "hex" )
|
||
#define STR_HIDE NC_("STR_HIDE", "hide" )
|
||
#define STR_SIZE NC_("STR_SIZE", "size" )
|
||
#define STR_FONT NC_("STR_FONT", "font" )
|
||
#define STR_ALIGN_LEFT NC_("STR_ALIGN_LEFT", "left" )
|
||
#define STR_ALIGN_CENTER NC_("STR_ALIGN_CENTER", "center" )
|
||
#define STR_ALIGN_RIGHT NC_("STR_ALIGN_RIGHT", "right" )
|
||
#define STR_CMDBOXWINDOW NC_("STR_CMDBOXWINDOW", "Commands" )
|
||
#define RID_DOCUMENTSTR NC_("RID_DOCUMENTSTR", "Formula" )
|
||
#define STR_STATSTR_WRITING NC_("STR_STATSTR_WRITING", "Saving document..." )
|
||
#define STR_MATH_DOCUMENT_FULLTYPE_CURRENT NC_("STR_MATH_DOCUMENT_FULLTYPE_CURRENT", "%PRODUCTNAME %PRODUCTVERSION Formula")
|
||
#define RID_ERR_IDENT NC_("RID_ERR_IDENT", "ERROR : " )
|
||
#define RID_ERR_NONE NC_("RID_ERR_NONE", "no error" )
|
||
#define RID_ERR_UNEXPECTEDCHARACTER NC_("RID_ERR_UNEXPECTEDCHARACTER", "Unexpected character" )
|
||
#define RID_ERR_UNEXPECTEDTOKEN NC_("RID_ERR_UNEXPECTEDTOKEN", "Unexpected token" )
|
||
#define RID_ERR_LGROUPEXPECTED NC_("RID_ERR_LGROUPEXPECTED", "'{' expected" )
|
||
#define RID_ERR_RGROUPEXPECTED NC_("RID_ERR_RGROUPEXPECTED", "'}' expected" )
|
||
#define RID_ERR_LBRACEEXPECTED NC_("RID_ERR_LBRACEEXPECTED", "'(' expected" )
|
||
#define RID_ERR_RBRACEEXPECTED NC_("RID_ERR_RBRACEEXPECTED", "')' expected" )
|
||
#define RID_ERR_PARENTMISMATCH NC_("RID_ERR_PARENTMISMATCH", "Left and right symbols mismatched" )
|
||
#define RID_ERR_FONTEXPECTED NC_("RID_ERR_FONTEXPECTED", "'fixed', 'sans', or 'serif' expected" )
|
||
#define RID_ERR_SIZEEXPECTED NC_("RID_ERR_SIZEEXPECTED", "'size' followed by an unexpected token" )
|
||
#define RID_ERR_DOUBLEALIGN NC_("RID_ERR_DOUBLEALIGN", "Double aligning is not allowed" )
|
||
#define RID_ERR_DOUBLESUBSUPSCRIPT NC_("RID_ERR_DOUBLESUBSUPSCRIPT", "Double sub/superscripts is not allowed" )
|
||
#define RID_ERR_NUMBEREXPECTED NC_("RID_ERR_NUMBEREXPECTED", "Expected number" )
|
||
#define RID_ERR_POUNDEXPECTED NC_("RID_ERR_POUNDEXPECTED", "'#' expected" )
|
||
#define RID_ERR_COLOREXPECTED NC_("RID_ERR_COLOREXPECTED", "Color required" )
|
||
#define RID_ERR_RIGHTEXPECTED NC_("RID_ERR_RIGHTEXPECTED", "'RIGHT' expected" )
|
||
#define RID_PRINTUIOPT_PRODNAME NC_("RID_PRINTUIOPT_PRODNAME", "%PRODUCTNAME %s" )
|
||
#define RID_PRINTUIOPT_CONTENTS NC_("RID_PRINTUIOPT_CONTENTS", "Contents" )
|
||
#define RID_PRINTUIOPT_TITLE NC_("RID_PRINTUIOPT_TITLE", "~Title" )
|
||
#define RID_PRINTUIOPT_FRMLTXT NC_("RID_PRINTUIOPT_FRMLTXT", "~Formula text" )
|
||
#define RID_PRINTUIOPT_BORDERS NC_("RID_PRINTUIOPT_BORDERS", "B~orders" )
|
||
#define RID_PRINTUIOPT_SIZE NC_("RID_PRINTUIOPT_SIZE", "Size" )
|
||
#define RID_PRINTUIOPT_ORIGSIZE NC_("RID_PRINTUIOPT_ORIGSIZE", "O~riginal size" )
|
||
#define RID_PRINTUIOPT_FITTOPAGE NC_("RID_PRINTUIOPT_FITTOPAGE", "Fit to ~page" )
|
||
#define RID_PRINTUIOPT_SCALING NC_("RID_PRINTUIOPT_SCALING", "~Scaling" )
|
||
// clang-format on
|
||
|
||
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
|