added shorter command for the differential d latter (\d)

texmf/tex/latex/mathoperators/mathoperators.sty

@@ -70,24 +70,25 @@
 
 %%%%%%%%%%% new shorter ones %%%%%%%%%%%%%%%%%
 
-\newcommand{\N}{\mathbb{N}} % natural number Symbol
-\newcommand{\Z}{\mathbb{Z}} % whole number Symbol
-\newcommand{\Q}{\mathbb{Q}} % rational number symbol
-\newcommand{\R}{\mathbb{R}} % real set R
+\newcommand{\N}{\mathbb{N}} 								% natural number Symbol
+\newcommand{\Z}{\mathbb{Z}} 								% whole number Symbol
+\newcommand{\Q}{\mathbb{Q}} 								% rational number symbol
+\newcommand{\R}{\mathbb{R}} 								% real set R
 \newcommand{\Rn}{\mathbb{R}^n}
-\newcommand{\Rnn}{\mathbb{R}^{n \times n}} % real set R^nxn
-\newcommand{\Rd}{\mathbb{R}^d} % real set R^n for MINT
+\newcommand{\Rd}{\mathbb{R}^d} 								% real set R^n for MINT
+\newcommand{\Rnn}{\mathbb{R}^{n \times n}} 					% real set R^nxn
 \undef{\H}
 \undef{\C}
-\newcommand{\C}{\mathbb{C}} % complex set C
+\newcommand{\C}{\mathbb{C}} 								% complex set C
 \newcommand{\Cn}{\mathbb{C}^n}
-\newcommand{\Cnn}{\mathbb{C}^{n \times n}} % complex set C^nxn
-\newcommand{\ii}{\mathrm{i}\mkern1mu}    % imaginary unit
-\newcommand{\H}{\mathbb{H}} % quaternion
-\newcommand{\F}{\mathbb{F}} % general field for the others above!
+\newcommand{\Cnn}{\mathbb{C}^{n \times n}} 					% complex set C^nxn
+\newcommand{\ii}{\mathrm{i}\mkern1mu}    					% imaginary unit
+\newcommand{\H}{\mathbb{H}} 								% quaternion
+\newcommand{\F}{\mathbb{F}} 								% general field for the others above!
 
-\newcommand{\powerset}{\mathcal{P}} % Powerset
-\newcommand{\pows}{\mathcal{P}} % shoter one
+\newcommand{\powerset}{\mathcal{P}} 						% Powerset
+\newcommand{\pows}{\mathcal{P}} 							
+% shoter one
 %%%%%%%%%%% p-adics %%%%%%%%%%%
 
 \newcommand{\pZ}{\mathbb{Z}_p}
@@ -96,35 +97,36 @@
 
 %%%%%%%%%%% Old commands, need to check, which ones are in use, if not delete!
 
-\newcommand{\diff}{\,\mathrm{d}} % differential d
-\newcommand{\s}{\,\,}     % space after the function in the intergral
-\newcommand{\cont}{\mathcal{C}} % Contour C
-\newcommand{\fuk}{f(z) \s\diff z} % f(z) dz
+\newcommand{\diff}{\,\mathrm{d}} 							% differential d
+\newcommand{\d}{\,\mathrm{d}} 								% shorter command for  differential d
+\newcommand{\s}{\,\,}     									% space after the function in the intergral
+\newcommand{\cont}{\mathcal{C}} 							% Contour C
+\newcommand{\fuk}{f(z) \s\diff z} 							% f(z) dz
 \newcommand{\diffz}{\s\diff z}
-\newcommand{\subint}{\int\limits} % lower boundaries for the integral
-\newcommand{\poly}{\mathcal{P}} % special P - polygon
-\newcommand{\defi}{\mathcal{D}} % D for the domain of a function
-\newcommand{\cover}{\mathcal{U}} % cover for a set
-\newcommand{\setsys}{\mathcal{M}} % set system M
-\newcommand{\setnys}{\mathcal{N}} % set system N
-\newcommand{\zetafunk}{f(\zeta)\s\diff \zeta} %f(zeta) d zeta
+\newcommand{\subint}{\int\limits} 							% lower boundaries for the integral
+\newcommand{\poly}{\mathcal{P}} 							% special P - polygon
+\newcommand{\defi}{\mathcal{D}} 							% D for the domain of a function
+\newcommand{\cover}{\mathcal{U}} 							% cover for a set
+\newcommand{\setsys}{\mathcal{M}} 							% set system M
+\newcommand{\setnys}{\mathcal{N}} 							% set system N
+\newcommand{\zetafunk}{f(\zeta)\s\diff \zeta} 				% f(zeta) d zeta
 \newcommand{\ztfunk}{f(\zeta)} % f(zeta)
 \newcommand{\bocirc}{S_r(z)}
 \newcommand{\prop}{\,|\,}
-\newcommand*{\QEDA}{\hfill\ensuremath{\blacksquare}} %tombstone
-\newcommand{\emptybra}{\{\varnothing\}} % empty set with set-bracket
+\newcommand*{\QEDA}{\hfill\ensuremath{\blacksquare}} 		% tombstone
+\newcommand{\emptybra}{\{\varnothing\}} 					% empty set with set-bracket
 \newcommand{\realpos}{\real_{>0}}
 \newcommand{\realposr}{\real_{\geq0}}
 \newcommand{\naturpos}{\natur_{>0}}
-\newcommand{\Imag}{\operatorname{Im}} % Imaginary symbol
-\newcommand{\Realz}{\operatorname{Re}} % Real symbol
-\newcommand{\foralln}{\forall n} %all n
-\newcommand{\forallnset}{\forall n \in \natur} %all n € |N
-\newcommand{\forallnz}{\forall n \geq _0} % all n >= n_0
-\newcommand{\conjz}{\overline{z}} % conjugated z
-\newcommand{\tildz}{\tilde{z}} % different z
-\newcommand{\lproofar}{"`$ \Leftarrow $"'} % "`<="'
-\newcommand{\rproofar}{"`$ \Rightarrow $"'} % "`=>"'
+\newcommand{\Imag}{\operatorname{Im}} 						% Imaginary symbol
+\newcommand{\Realz}{\operatorname{Re}} 						% Real symbol
+\newcommand{\foralln}{\forall n} 							% all n
+\newcommand{\forallnset}{\forall n \in \natur} 				% all n € |N
+\newcommand{\forallnz}{\forall n \geq _0} 					% all n >= n_0
+\newcommand{\conjz}{\overline{z}} 							% conjugated z
+\newcommand{\tildz}{\tilde{z}} 								% different z
+\newcommand{\lproofar}{"`$ \Leftarrow $"'} 					% "`<="'
+\newcommand{\rproofar}{"`$ \Rightarrow $"'} 				% "`=>"'
 \newcommand{\beha}{\Rightarrow \text{ Behauptung}}
 \newcommand{\person}[1]{\textsc{#1}}
 \newcommand{\highlight}[1]{\emph{#1}}
@@ -223,6 +225,7 @@
 
 %%%%%%%%%%% Stochastic %%%%%%%%%%%%%%%%%%
 
+% distributions
 \DeclareMathOperator{\Bin}{Bin}         % Binomial-distribution
 \DeclareMathOperator{\Ber}{Bernoulli}   % Bernoulli-distibution
 \DeclareMathOperator{\Multi}{Multi}     % Multinomial-distribution
@@ -230,118 +233,123 @@
 \DeclareMathOperator{\Pois}{Poisson}    % Poisson-distribution
 \DeclareMathOperator{\Gleich}{U}        % Gleich-distribution
 
-% Math Operators
+% Other stuff for stochastic
+
+
+
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% Math Operators %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
 %%%%%% A
-\DeclareMathOperator{\Aff}{Aff} % Affine
-\DeclareMathOperator{\Aut}{Aut} % Automorphism
-\DeclareMathOperator{\Abb}{Abb} % Abbildung
+\DeclareMathOperator{\Aff}{Aff} 				% Affine
+\DeclareMathOperator{\Aut}{Aut} 				% Automorphism
+\DeclareMathOperator{\Abb}{Abb} 				% Abbildung
 
 %%%%%% B
-\DeclareMathOperator{\Bil}{Bil}
+\DeclareMathOperator{\Bil}{Bil}					% Bilinear form
 
 %%%%%% C
-\DeclareMathOperator{\cl}{cl} % Closure
-\DeclareMathOperator{\cond}{cond} % ? 
-\DeclareMathOperator{\curl}{curl} % Curl/Rotation
-\DeclareMathOperator{\chara}{char} % characteric Ring/Field
+\DeclareMathOperator{\cl}{cl} 					% Closure
+\DeclareMathOperator{\cond}{cond} 				% ? 
+\DeclareMathOperator{\curl}{curl} 				% Curl/Rotation
+\DeclareMathOperator{\chara}{char} 				% characteric Ring/Field
 
 %%%%%% D
-\DeclareMathOperator{\diam}{diam} % Diameter of a set
+\DeclareMathOperator{\diam}{diam} 				% Diameter of a set
 \undef\div
-\DeclareMathOperator{\div}{div} % Divergence
-\DeclareMathOperator{\diag}{diag} % Diagonal matrix
-\DeclareMathOperator{\D}{d} % ?
+\DeclareMathOperator{\div}{div} 				% Divergence
+\DeclareMathOperator{\diag}{diag} 				% Diagonal matrix
+\DeclareMathOperator{\D}{d} 					% ?
 
 %%%%%% E
-\DeclareMathOperator{\Eig}{Eig} % Eigenspace
-\DeclareMathOperator{\End}{End} % Endomorphism
-\DeclareMathOperator{\ext}{ext} % Exterior
-\DeclareMathOperator{\Ext}{ext} % 2nd time?
+\DeclareMathOperator{\Eig}{Eig} 				% Eigenspace
+\DeclareMathOperator{\End}{End} 				% Endomorphism
+\DeclareMathOperator{\ext}{ext} 				% Exterior
+\DeclareMathOperator{\Ext}{ext} 				% 2nd time?
 
 %%%%%% F
-\DeclareMathOperator{\Fix}{Fix} % Fix-points for group theory
+\DeclareMathOperator{\Fix}{Fix} 				% Fix-points for group theory
 
 %%%%%% G
-\DeclareMathOperator{\ggT}{ggT} % Größte geimeinsamer Teiler (gcd)
-\DeclareMathOperator{\GL}{GL} % General Linear Group
-\DeclareMathOperator{\graph}{graph} % Graph
-\DeclareMathOperator{\grad}{grad} % Gradient
+\DeclareMathOperator{\ggT}{ggT}					% Größte geimeinsamer Teiler (gcd)
+\DeclareMathOperator{\GL}{GL} 					% General Linear Group
+\DeclareMathOperator{\graph}{graph} 			% Graph
+\DeclareMathOperator{\grad}{grad} 				% Gradient
 
 %%%%%% H
-\DeclareMathOperator{\Hom}{Hom} % family of Homomorphisms
-\DeclareMathOperator{\Hau}{Hau} % Hauptraum (generalized Eigenspace)
+\DeclareMathOperator{\Hom}{Hom} 				% family of Homomorphisms
+\DeclareMathOperator{\Hau}{Hau} 				% Hauptraum (generalized Eigenspace)
 
 %%%%%% IJK
-\DeclareMathOperator{\Image}{Im} % Image
-\DeclareMathOperator{\Inn}{Inn} % Inner autommorphism
-\DeclareMathOperator{\inn}{int} % Set of inner points
-\DeclareMathOperator{\Int}{int} % 2nd time
-\DeclareMathOperator{\id}{id} % Identity
+\DeclareMathOperator{\Image}{Im} 				% Image
+\DeclareMathOperator{\Inn}{Inn} 				% Inner autommorphism
+\DeclareMathOperator{\inn}{int} 				% Set of inner points
+\DeclareMathOperator{\Int}{int} 				% 2nd time
+\DeclareMathOperator{\id}{id} 					% Identity
 
-\DeclareMathOperator{\kgV}{kgV} % kleinste gemeinsamer Teiler (lcd)
-\DeclareMathOperator{\Ker}{Ker} % kernel of a morphisms
+\DeclareMathOperator{\kgV}{kgV} 				% kleinste gemeinsamer Teiler (lcd)
+\DeclareMathOperator{\Ker}{Ker} 				% kernel of a morphisms
 
 %%%%%% LMN
-\DeclareMathOperator{\LC}{LC} % Leitkoeffizient
+\DeclareMathOperator{\LC}{LC} 					% Leitkoeffizient polynome
 
-\DeclareMathOperator{\Mat}{Mat} % Matrix
-\DeclareMathOperator{\MinPol}{MinPol} % Minimal Polynomial
+\DeclareMathOperator{\Mat}{Mat} 				% Matrix
+\DeclareMathOperator{\MinPol}{MinPol} 			% Minimal Polynomial
 
 
 %%%%%% OPQ
-\DeclareMathOperator{\ord}{ord} % Order of a group
-\DeclareMathOperator{\Orth}{O} % Orthogonal Group
-\DeclareMathOperator{\Out}{Out} % Outer Automorphism
-\DeclareMathOperator{\Landau}{O} % Big ``O'' (Landau)
+\DeclareMathOperator{\ord}{ord} 				% Order of a group
+\DeclareMathOperator{\Orth}{O} 					% Orthogonal Group
+\DeclareMathOperator{\Out}{Out} 				% Outer Automorphism
+\DeclareMathOperator{\Landau}{O} 				% Big ``O'' (Landau)
 
-\DeclareMathOperator{\pr}{pr} % Projection
+\DeclareMathOperator{\pr}{pr} 					% Projection
 
-\DeclareMathOperator{\Quot}{Quot} % Quotient
+\DeclareMathOperator{\Quot}{Quot} 				% Quotient
 
 %%%%%% R
-\DeclareMathOperator{\rd}{rd} % ?
-\DeclareMathOperator{\rk}{rk} % Rank of a matrix
-\DeclareMathOperator{\rot}{rot} % Rotation (Curl)
-\DeclareMathOperator{\rang}{rang} % Matrix Rank
+\DeclareMathOperator{\rd}{rd} 					% ?
+\DeclareMathOperator{\rk}{rk} 					% Rank of a matrix
+\DeclareMathOperator{\rot}{rot} 				% Rotation (Curl)
+\DeclareMathOperator{\rang}{rang} 				% Matrix Rank
 
 %%%%%% S
-\DeclareMathOperator{\sgn}{sgn} % Signum function
-\DeclareMathOperator{\SL}{SL} % Special Linear Group
-\DeclareMathOperator{\SO}{SO} % Special Orthogonal Group
-\DeclareMathOperator{\Span}{span} % Span
-\DeclareMathOperator{\SR}{SR} % Spaltenraum
-\DeclareMathOperator{\Stab}{Stab} % Stabilizer
-\DeclareMathOperator{\supp}{supp} % Support
-\DeclareMathOperator{\Syl}{Syl} % Sylow Group
-\DeclareMathOperator{\Sym}{Sym} % Symmetric Group
-\DeclareMathOperator{\SU}{SU} % Special Unitary Group
+\DeclareMathOperator{\sgn}{sgn} 				% Signum function
+\DeclareMathOperator{\SL}{SL} 					% Special Linear Group
+\DeclareMathOperator{\SO}{SO} 					% Special Orthogonal Group
+\DeclareMathOperator{\Span}{span} 				% Span
+\DeclareMathOperator{\SR}{SR} 					% Spaltenraum
+\DeclareMathOperator{\Stab}{Stab} 				% Stabilizer
+\DeclareMathOperator{\supp}{supp} 				% Support
+\DeclareMathOperator{\Syl}{Syl} 				% Sylow Group
+\DeclareMathOperator{\Sym}{Sym} 				% Symmetric Group
+\DeclareMathOperator{\SU}{SU} 					% Special Unitary Group
 
 %%%%%% T
-\DeclareMathOperator{\tr}{tr} % Trace operator
-\DeclareMathOperator{\Typ}{Typ} % Type
+\DeclareMathOperator{\tr}{tr} 					% Trace operator
+\DeclareMathOperator{\Typ}{Typ} 				% Type
 
 %%%%%% UVW
-\DeclareMathOperator{\UG}{UG} % Untergruppe (subgroup) 
-\DeclareMathOperator{\Uni}{U} % Unitary Group
+\DeclareMathOperator{\UG}{UG} 					% Untergruppe (subgroup) 
+\DeclareMathOperator{\Uni}{U} 					% Unitary Group
 
-\DeclareMathOperator{\w}{w} % ?
+\DeclareMathOperator{\w}{w} 					% ?
 
 %%%%%% XYZ
-\DeclareMathOperator{\ZR}{ZR} % Zeilenraum
-%\DeclareMathOperator{\Z}{Z} % ?
+\DeclareMathOperator{\ZR}{ZR} 					% Zeilenraum
+%\DeclareMathOperator{\Z}{Z} 					% ?
 
 
 % WHITESPACE COMMANDS
-\newcommand{\nl}{\\[\baselineskip]}      % wordwrap with empty Zeile line after w/o underfull-hbox-warning
-\newcommand{\enter}{$ $\newline}         % wordwrap w/o condition
-\newcommand\tab[1][1cm]{\hspace*{#1}}    % practical Tabulator
+\newcommand{\nl}{\\[\baselineskip]}      		% wordwrap with empty Zeile line after w/o underfull-hbox-warning
+\newcommand{\enter}{$ $\newline}         		% wordwrap w/o condition
+\newcommand\tab[1][1cm]{\hspace*{#1}}    		% practical Tabulator
 
 % words in align env %
-\renewcommand{\mit}{\text{ mit }}        % overrides \mit - Used to turn on math italic typestyle.
-\newcommand{\bzw}{\text{ bzw. }}         % sprachliches bzw. für Numerik
-\newcommand{\falls}{\text{falls }}       % sprachliches falls für Fallunterscheidungen
-\newcommand{\sonst}{\text{sonst }}       % sprachliches sonst für Fallunterscheidungen
-\newcommand{\und}{\text{ und }}          % sprachliches und für align-Umgebungen
-\newcommand{\oder}{\text{ oder }}        % sprachliches oder für align-Umgebungen
+\renewcommand{\mit}{\text{ mit }}        		% overrides \mit - Used to turn on math italic typestyle.
+\newcommand{\bzw}{\text{ bzw. }}         		% sprachliches bzw. für Numerik
+\newcommand{\falls}{\text{falls }}       		% sprachliches falls für Fallunterscheidungen
+\newcommand{\sonst}{\text{sonst }}       		% sprachliches sonst für Fallunterscheidungen
+\newcommand{\und}{\text{ und }}          		% sprachliches und für align-Umgebungen
+\newcommand{\oder}{\text{ oder }}        		% sprachliches oder für align-Umgebungen
 
 \endinput