;;; calc-menu.el --- a menu for Calc -*- lexical-binding:t -*- ;; Copyright (C) 2007-2021 Free Software Foundation, Inc. ;; This file is part of GNU Emacs. ;; GNU Emacs 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 3 of the License, or ;; (at your option) any later version. ;; GNU Emacs 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 GNU Emacs. If not, see . ;;; Commentary: (defvar calc-arithmetic-menu (list "Arithmetic" (list "Basic" ["-(1:)" calc-change-sign :keys "n" :active (>= (calc-stack-size) 1)] ["(2:) + (1:)" calc-plus :keys "+" :active (>= (calc-stack-size) 2)] ["(2:) - (1:)" calc-minus :keys "-" :active (>= (calc-stack-size) 2)] ["(2:) * (1:)" calc-times :keys "*" :active (>= (calc-stack-size) 2)] ["(2:) / (1:)" calc-divide :keys "/" :active (>= (calc-stack-size) 2)] ["(2:) ^ (1:)" calc-power :keys "^" :active (>= (calc-stack-size) 2)] ["(2:) ^ (1/(1:))" (progn (require 'calc-ext) (let ((calc-inverse-flag t)) (call-interactively 'calc-power))) :keys "I ^" :active (>= (calc-stack-size) 2) :help "The (1:)th root of (2:)"] ["abs(1:)" (progn (require 'calc-arith) (call-interactively 'calc-abs)) :keys "A" :active (>= (calc-stack-size) 1) :help "Absolute value"] ["1/(1:)" (progn (require 'calc-arith) (call-interactively 'calc-inv)) :keys "&" :active (>= (calc-stack-size) 1)] ["sqrt(1:)" (progn (require 'calc-math) (call-interactively 'calc-sqrt)) :keys "Q" :active (>= (calc-stack-size) 1)] ["idiv(2:,1:)" (progn (require 'calc-arith) (call-interactively 'calc-idiv)) :keys "\\" :active (>= (calc-stack-size) 2) :help "The integer quotient of (2:) over (1:)"] ["(2:) mod (1:)" (progn (require 'calc-misc) (call-interactively 'calc-mod)) :keys "%" :active (>= (calc-stack-size) 2) :help "The remainder when (2:) is divided by (1:)"]) (list "Rounding" ["floor(1:)" (progn (require 'calc-arith) (call-interactively 'calc-floor)) :keys "F" :active (>= (calc-stack-size) 1) :help "The greatest integer less than or equal to (1:)"] ["ceiling(1:)" (progn (require 'calc-arith) (call-interactively 'calc-ceiling)) :keys "I F" :active (>= (calc-stack-size) 1) :help "The smallest integer greater than or equal to (1:)"] ["round(1:)" (progn (require 'calc-arith) (call-interactively 'calc-round)) :keys "R" :active (>= (calc-stack-size) 1) :help "The nearest integer to (1:)"] ["truncate(1:)" (progn (require 'calc-arith) (call-interactively 'calc-trunc)) :keys "I R" :active (>= (calc-stack-size) 1) :help "The integer part of (1:)"]) (list "Complex Numbers" ["Re(1:)" (progn (require 'calc-cplx) (call-interactively 'calc-re)) :keys "f r" :active (>= (calc-stack-size) 1)] ["Im(1:)" (progn (require 'calc-cplx) (call-interactively 'calc-im)) :keys "f i" :active (>= (calc-stack-size) 1)] ["conj(1:)" (progn (require 'calc-cplx) (call-interactively 'calc-conj)) :keys "J" :active (>= (calc-stack-size) 1) :help "The complex conjugate of (1:)"] ["length(1:)" (progn (require 'calc-arith) (call-interactively 'calc-abs)) :keys "A" :active (>= (calc-stack-size) 1) :help "The length (absolute value) of (1:)"] ["arg(1:)" (progn (require 'calc-cplx) (call-interactively 'calc-argument)) :keys "G" :active (>= (calc-stack-size) 1) :help "The argument (polar angle) of (1:)"]) (list "Conversion" ["Convert (1:) to a float" (progn (require 'calc-ext) (call-interactively 'calc-float)) :keys "c f" :active (>= (calc-stack-size) 1)] ["Convert (1:) to a fraction" (progn (require 'calc-ext) (call-interactively 'calc-fraction)) :keys "c F" :active (>= (calc-stack-size) 1)]) (list "Binary" ["Set word size" (progn (require 'calc-bin) (call-interactively 'calc-word-size)) :keys "b w"] ["Clip (1:) to word size" (progn (require 'calc-bin) (call-interactively 'calc-clip)) :keys "b c" :active (>= (calc-stack-size) 1) :help "Reduce (1:) modulo 2^wordsize"] ["(2:) and (1:)" (progn (require 'calc-bin) (call-interactively 'calc-and)) :keys "b a" :active (>= (calc-stack-size) 2) :help "Bitwise AND [modulo 2^wordsize]"] ["(2:) or (1:)" (progn (require 'calc-bin) (call-interactively 'calc-or)) :keys "b o" :active (>= (calc-stack-size) 2) :help "Bitwise inclusive OR [modulo 2^wordsize]"] ["(2:) xor (1:)" (progn (require 'calc-bin) (call-interactively 'calc-xor)) :keys "b x" :active (>= (calc-stack-size) 2) :help "Bitwise exclusive OR [modulo 2^wordsize]"] ["diff(2:,1:)" (progn (require 'calc-bin) (call-interactively 'calc-diff)) :keys "b d" :active (>= (calc-stack-size) 2) :help "Bitwise difference [modulo 2^wordsize]"] ["not (1:)" (progn (require 'calc-bin) (call-interactively 'calc-not)) :keys "b n" :active (>= (calc-stack-size) 1) :help "Bitwise NOT [modulo 2^wordsize]"] ["left shift(1:)" (progn (require 'calc-bin) (call-interactively 'calc-lshift-binary)) :keys "b l" :active (>= (calc-stack-size) 1) :help "Shift (1:)[modulo 2^wordsize] one bit left"] ["right shift(1:)" (progn (require 'calc-bin) (call-interactively 'calc-rshift-binary)) :keys "b r" :active (>= (calc-stack-size) 1) :help "Shift (1:)[modulo 2^wordsize] one bit right, putting 0s on the left"] ["arithmetic right shift(1:)" (progn (require 'calc-bin) (call-interactively 'calc-rshift-arith)) :keys "b R" :active (>= (calc-stack-size) 1) :help "Shift (1:)[modulo 2^wordsize] one bit right, duplicating the leftmost bit"] ["rotate(1:)" (progn (require 'calc-bin) (call-interactively 'calc-rotate-binary)) :keys "b t" :active (>= (calc-stack-size) 1) :help "Rotate (1:)[modulo 2^wordsize] one bit left"]) "-------" ["Help on Arithmetic" (calc-info-goto-node "Arithmetic")]) "Menu for Calc's arithmetic functions.") (defvar calc-scientific-function-menu (list "Scientific Functions" (list "Constants" ["pi" (progn (require 'calc-math) (call-interactively 'calc-pi)) :keys "P"] ["e" (progn (require 'calc-math) (let ((calc-hyperbolic-flag t)) (call-interactively 'calc-pi))) :keys "H P"] ["phi" (progn (require 'calc-math) (let ((calc-inverse-flag t) (calc-hyperbolic-flag t)) (call-interactively 'calc-pi))) :keys "I H P" :help "The golden ratio"] ["gamma" (progn (require 'calc-math) (let ((calc-inverse-flag t)) (call-interactively 'calc-pi))) :keys "I P" :help "Euler's constant"]) (list "Logs and Exps" ["ln(1:)" (progn (require 'calc-math) (call-interactively 'calc-ln)) :keys "L" :active (>= (calc-stack-size) 1) :help "The natural logarithm"] ["e^(1:)" (progn (require 'calc-math) (call-interactively 'calc-exp)) :keys "E" :active (>= (calc-stack-size) 1)] ["log(1:) [base 10]" (progn (require 'calc-math) (call-interactively 'calc-log10)) :keys "H L" :active (>= (calc-stack-size) 1) :help "The common logarithm"] ["10^(1:)" (progn (require 'calc-math) (let ((calc-inverse-flag t)) (call-interactively 'calc-log10))) :keys "I H L" :active (>= (calc-stack-size) 1)] ["log(2:) [base(1:)]" (progn (require 'calc-math) (call-interactively 'calc-log)) :keys "B" :active (>= (calc-stack-size) 2) :help "The logarithm with an arbitrary base"] ["(2:) ^ (1:)" calc-power :keys "^" :active (>= (calc-stack-size) 2)]) (list "Trigonometric Functions" ["sin(1:)" (progn (require 'calc-math) (call-interactively 'calc-sin)) :keys "S" :active (>= (calc-stack-size) 1)] ["cos(1:)" (progn (require 'calc-math) (call-interactively 'calc-cos)) :keys "C" :active (>= (calc-stack-size) 1)] ["tan(1:)" (progn (require 'calc-math) (call-interactively 'calc-tan)) :keys "T" :active (>= (calc-stack-size) 1)] ["arcsin(1:)" (progn (require 'calc-math) (call-interactively 'calc-arcsin)) :keys "I S" :active (>= (calc-stack-size) 1)] ["arccos(1:)" (progn (require 'calc-math) (call-interactively 'calc-arccos)) :keys "I C" :active (>= (calc-stack-size) 1)] ["arctan(1:)" (progn (require 'calc-math) (call-interactively 'calc-arctan)) :keys "I T" :active (>= (calc-stack-size) 1)] ["arctan2(2:,1:)" (progn (require 'calc-math) (call-interactively 'calc-arctan2)) :keys "f T" :active (>= (calc-stack-size) 2)] "--Angle Measure--" ["Radians" (progn (require 'calc-math) (calc-radians-mode)) :keys "m r" :style radio :selected (eq calc-angle-mode 'rad)] ["Degrees" (progn (require 'calc-math) (calc-degrees-mode)) :keys "m d" :style radio :selected (eq calc-angle-mode 'deg)] ["HMS" (progn (require 'calc-math) (calc-hms-mode)) :keys "m h" :style radio :selected (eq calc-angle-mode 'hms)]) (list "Hyperbolic Functions" ["sinh(1:)" (progn (require 'calc-math) (call-interactively 'calc-sinh)) :keys "H S" :active (>= (calc-stack-size) 1)] ["cosh(1:)" (progn (require 'calc-math) (call-interactively 'calc-cosh)) :keys "H C" :active (>= (calc-stack-size) 1)] ["tanh(1:)" (progn (require 'calc-math) (call-interactively 'calc-tanh)) :keys "H T" :active (>= (calc-stack-size) 1)] ["arcsinh(1:)" (progn (require 'calc-math) (call-interactively 'calc-arcsinh)) :keys "I H S" :active (>= (calc-stack-size) 1)] ["arccosh(1:)" (progn (require 'calc-math) (call-interactively 'calc-arccosh)) :keys "I H C" :active (>= (calc-stack-size) 1)] ["arctanh(1:)" (progn (require 'calc-math) (call-interactively 'calc-arctanh)) :keys "I H T" :active (>= (calc-stack-size) 1)]) (list "Advanced Math Functions" ["Gamma(1:)" (progn (require 'calc-comb) (call-interactively 'calc-gamma)) :keys "f g" :active (>= (calc-stack-size) 1) :help "The Euler Gamma function"] ["GammaP(2:,1:)" (progn (require 'calc-funcs) (call-interactively 'calc-inc-gamma)) :keys "f G" :active (>= (calc-stack-size) 2) :help "The lower incomplete Gamma function"] ["Beta(2:,1:)" (progn (require 'calc-funcs) (call-interactively 'calc-beta)) :keys "f b" :active (>= (calc-stack-size) 2) :help "The Euler Beta function"] ["BetaI(3:,2:,1:)" (progn (require 'calc-funcs) (call-interactively 'calc-inc-beta)) :keys "f B" :active (>= (calc-stack-size) 3) :help "The incomplete Beta function"] ["erf(1:)" (progn (require 'calc-funcs) (call-interactively 'calc-erf)) :keys "f e" :active (>= (calc-stack-size) 1) :help "The error function"] ["BesselJ(2:,1:)" (progn (require 'calc-funcs) (call-interactively 'calc-bessel-J)) :keys "f j" :active (>= (calc-stack-size) 2) :help "The Bessel function of the first kind (of order (2:))"] ["BesselY(2:,1:)" (progn (require 'calc-funcs) (call-interactively 'calc-bessel-Y)) :keys "f y" :active (>= (calc-stack-size) 2) :help "The Bessel function of the second kind (of order (2:))"]) (list "Combinatorial Functions" ["gcd(2:,1:)" (progn (require 'calc-comb) (call-interactively 'calc-gcd)) :keys "k g" :active (>= (calc-stack-size) 2)] ["lcm(2:,1:)" (progn (require 'calc-comb) (call-interactively 'calc-lcm)) :keys "k l" :active (>= (calc-stack-size) 2)] ["factorial(1:)" (progn (require 'calc-comb) (call-interactively 'calc-factorial)) :keys "!" :active (>= (calc-stack-size) 1)] ["(2:) choose (1:)" (progn (require 'calc-comb) (call-interactively 'calc-choose)) :keys "k c" :active (>= (calc-stack-size) 2)] ["permutations(2:,1:)" (progn (require 'calc-comb) (call-interactively 'calc-perm)) :keys "H k c" :active (>= (calc-stack-size) 2)] ["Primality test for (1:)" (progn (require 'calc-comb) (call-interactively 'calc-prime-test)) :keys "k p" :active (>= (calc-stack-size) 1) :help "For large (1:), a probabilistic test"] ["Factor (1:) into primes" (progn (require 'calc-comb) (call-interactively 'calc-prime-factors)) :keys "k f" :active (>= (calc-stack-size) 1)] ["Next prime after (1:)" (progn (require 'calc-comb) (call-interactively 'calc-next-prime)) :keys "k n" :active (>= (calc-stack-size) 1)] ["Previous prime before (1:)" (progn (require 'calc-comb) (call-interactively 'calc-prev-prime)) :keys "I k n" :active (>= (calc-stack-size) 1)] ["phi(1:)" (progn (require 'calc-comb) (call-interactively 'calc-totient)) :keys "k n" :active (>= (calc-stack-size) 1) :help "Euler's totient function"] ["random(1:)" (progn (require 'calc-comb) (call-interactively 'calc-random)) :keys "k r" :active (>= (calc-stack-size) 1) :help "A random number >=1 and < (1:)"]) "----" ["Help on Scientific Functions" (calc-info-goto-node "Scientific Functions")]) "Menu for Calc's scientific functions.") (defvar calc-algebra-menu (list "Algebra" (list "Simplification" ["Simplify (1:)" (progn (require 'calc-alg) (call-interactively 'calc-simplify)) :keys "a s" :active (>= (calc-stack-size) 1)] ["Simplify (1:) with extended rules" (progn (require 'calc-alg) (call-interactively 'calc-simplify-extended)) :keys "a e" :active (>= (calc-stack-size) 1) :help "Apply possibly unsafe simplifications"]) (list "Manipulation" ["Expand formula (1:)" (progn (require 'calc-alg) (call-interactively 'calc-expand-formula)) :keys "a \"" :active (>= (calc-stack-size) 1) :help "Expand (1:) into its defining formula, if possible"] ["Evaluate variables in (1:)" (progn (require 'calc-ext) (call-interactively 'calc-evaluate)) :keys "=" :active (>= (calc-stack-size) 1)] ["Make substitution in (1:)" (progn (require 'calc-alg) (call-interactively 'calc-substitute)) :keys "a b" :active (>= (calc-stack-size) 1) :help "Substitute all occurrences of a sub-expression with a new sub-expression"]) (list "Polynomials" ["Factor (1:)" (progn (require 'calc-alg) (call-interactively 'calc-factor)) :keys "a f" :active (>= (calc-stack-size) 1)] ["Collect terms in (1:)" (progn (require 'calc-alg) (call-interactively 'calc-collect)) :keys "a c" :active (>= (calc-stack-size) 1) :help "Arrange as a polynomial in a given variable"] ["Expand (1:)" (progn (require 'calc-alg) (call-interactively 'calc-expand)) :keys "a x" :active (>= (calc-stack-size) 1) :help "Apply distributive law everywhere"] ["Find roots of (1:)" (progn (require 'calcalg2) (call-interactively 'calc-poly-roots)) :keys "a P" :active (>= (calc-stack-size) 1)]) (list "Calculus" ["Differentiate (1:)" (progn (require 'calcalg2) (call-interactively 'calc-derivative)) :keys "a d" :active (>= (calc-stack-size) 1)] ["Integrate (1:) [indefinite]" (progn (require 'calcalg2) (call-interactively 'calc-integral)) :keys "a i" :active (>= (calc-stack-size) 1)] ["Integrate (1:) [definite]" (progn (require 'calcalg2) (let ((var (read-string "Integration variable: "))) (calc-tabular-command 'calcFunc-integ "Integration" "intg" nil var nil nil))) :keys "C-u a i" :active (>= (calc-stack-size) 1)] ["Integrate (1:) [numeric]" (progn (require 'calcalg2) (call-interactively 'calc-num-integral)) :keys "a I" :active (>= (calc-stack-size) 1) :help "Integrate using the open Romberg method"] ["Taylor expand (1:)" (progn (require 'calcalg2) (call-interactively 'calc-taylor)) :keys "a t" :active (>= (calc-stack-size) 1)] ["Minimize (2:) [initial guess = (1:)]" (progn (require 'calcalg3) (call-interactively 'calc-find-minimum)) :keys "a N" :active (>= (calc-stack-size) 2) :help "Find a local minimum"] ["Maximize (2:) [initial guess = (1:)]" (progn (require 'calcalg3) (call-interactively 'calc-find-maximum)) :keys "a X" :active (>= (calc-stack-size) 2) :help "Find a local maximum"]) (list "Solving" ["Solve equation (1:)" (progn (require 'calcalg2) (call-interactively 'calc-solve-for)) :keys "a S" :active (>= (calc-stack-size) 1)] ["Solve equation (2:) numerically [initial guess = (1:)]" (progn (require 'calcalg3) (call-interactively 'calc-find-root)) :keys "a R" :active (>= (calc-stack-size) 2)] ["Find roots of polynomial (1:)" (progn (require 'calcalg2) (call-interactively 'calc-poly-roots)) :keys "a P" :active (>= (calc-stack-size) 1)]) (list "Curve Fitting" ["Fit (1:)=[x values, y values] to a curve" (progn (require 'calcalg3) (call-interactively 'calc-curve-fit)) :keys "a F" :active (>= (calc-stack-size) 1)]) "----" ["Help on Algebra" (calc-info-goto-node "Algebra")]) "Menu for Calc's algebraic facilities.") (defvar calc-graphics-menu (list "Graphics" ["Graph 2D [(1:)= y values, (2:)= x values]" (progn (require 'calc-graph) (call-interactively 'calc-graph-fast)) :keys "g f" :active (>= (calc-stack-size) 2)] ["Graph 3D [(1:)= z values, (2:)= y values, (3:)= x values]" (progn (require 'calc-graph) (call-interactively 'calc-graph-fast-3d)) :keys "g F" :active (>= (calc-stack-size) 3)] "----" ["Help on Graphics" (calc-info-goto-node "Graphics")]) "Menu for Calc's graphics.") (defvar calc-vectors-menu (list "Matrices/Vectors" (list "Matrices" ["(2:) + (1:)" calc-plus :keys "+" :active (>= (calc-stack-size) 2)] ["(2:) - (1:)" calc-minus :keys "-" :active (>= (calc-stack-size) 2)] ["(2:) * (1:)" calc-times :keys "*" :active (>= (calc-stack-size) 2)] ["(1:)^(-1)" (progn (require 'calc-arith) (call-interactively 'calc-inv)) :keys "&" :active (>= (calc-stack-size) 1)] ["Create an identity matrix" (progn (require 'calc-vec) (call-interactively 'calc-ident)) :keys "v i"] ["transpose(1:)" (progn (require 'calc-vec) (call-interactively 'calc-transpose)) :keys "v t" :active (>= (calc-stack-size) 1)] ["det(1:)" (progn (require 'calc-mtx) (call-interactively 'calc-mdet)) :keys "V D" :active (>= (calc-stack-size) 1)] ["trace(1:)" (progn (require 'calc-mtx) (call-interactively 'calc-mtrace)) :keys "V T" :active (>= (calc-stack-size) 1)] ["LUD decompose (1:)" (progn (require 'calc-mtx) (call-interactively 'calc-mlud)) :keys "V L" :active (>= (calc-stack-size) 1)] ["Extract a row from (1:)" (progn (require 'calc-vec) (call-interactively 'calc-mrow)) :keys "v r" :active (>= (calc-stack-size) 1)] ["Extract a column from (1:)" (progn (require 'calc-vec) (call-interactively 'calc-mcol)) :keys "v c" :active (>= (calc-stack-size) 1)]) (list "Vectors" ["Extract the first element of (1:)" (progn (require 'calc-vec) (call-interactively 'calc-head)) :keys "v h" :active (>= (calc-stack-size) 1)] ["Extract an element from (1:)" (progn (require 'calc-vec) (call-interactively 'calc-mrow)) :keys "v r" :active (>= (calc-stack-size) 1)] ["Reverse (1:)" (progn (require 'calc-vec) (call-interactively 'calc-reverse-vector)) :keys "v v" :active (>= (calc-stack-size) 1)] ["Unpack (1:)" (progn (require 'calc-vec) (call-interactively 'calc-unpack)) :keys "v u" :active (>= (calc-stack-size) 1) :help "Separate the elements of (1:)"] ["(2:) cross (1:)" (progn (require 'calc-vec) (call-interactively 'calc-cross)) :keys "V C" :active (>= (calc-stack-size) 2) :help "The cross product in R^3"] ["(2:) dot (1:)" calc-mult :keys "*" :active (>= (calc-stack-size) 2) :help "The dot product"] ["Map a function across (1:)" (progn (require 'calc-map) (call-interactively 'calc-map)) :keys "V M" :active (>= (calc-stack-size) 1) :help "Apply a function to each element"]) (list "Vectors As Sets" ["Remove duplicates from (1:)" (progn (require 'calc-vec) (call-interactively 'calc-remove-duplicates)) :keys "V +" :active (>= (calc-stack-size) 1)] ["(2:) union (1:)" (progn (require 'calc-vec) (call-interactively 'calc-set-union)) :keys "V V" :active (>= (calc-stack-size) 2)] ["(2:) intersect (1:)" (progn (require 'calc-vec) (call-interactively 'calc-set-intersect)) :keys "V ^" :active (>= (calc-stack-size) 2)] ["(2:) \\ (1:)" (progn (require 'calc-vec) (call-interactively 'calc-set-difference)) :keys "V -" :help "Set difference" :active (>= (calc-stack-size) 2)]) (list "Statistics On Vectors" ["length(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-count)) :keys "u #" :active (>= (calc-stack-size) 1) :help "The number of data values"] ["sum(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-sum)) :keys "u +" :active (>= (calc-stack-size) 1) :help "The sum of the data values"] ["max(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-max)) :keys "u x" :active (>= (calc-stack-size) 1) :help "The maximum of the data values"] ["min(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-min)) :keys "u N" :active (>= (calc-stack-size) 1) :help "The minimum of the data values"] ["mean(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-mean)) :keys "u M" :active (>= (calc-stack-size) 1) :help "The average (arithmetic mean) of the data values"] ["mean(1:) with error" (progn (require 'calc-stat) (call-interactively 'calc-vector-mean-error)) :keys "I u M" :active (>= (calc-stack-size) 1) :help "The average (arithmetic mean) of the data values as an error form"] ["rms(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-rms)) :keys "u R" :active (>= (calc-stack-size) 1) :help "The root mean square of the data values"] ["sdev(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-sdev)) :keys "u S" :active (>= (calc-stack-size) 1) :help "The sample sdev, sqrt[sum((values - mean)^2)/(N-1)]"] ["variance(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-variance)) :keys "H u S" :active (>= (calc-stack-size) 1) :help "The sample variance, sum((values - mean)^2)/(N-1)"] ["population sdev(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-pop-sdev)) :keys "I u S" :active (>= (calc-stack-size) 1) :help "The population sdev, sqrt[sum((values - mean)^2)/N]"] ["population variance(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-pop-variance)) :keys "H I u S" :active (>= (calc-stack-size) 1) :help "The population variance, sum((values - mean)^2)/N"] ["median(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-median)) :keys "H u M" :active (>= (calc-stack-size) 1) :help "The median of the data values"] ["harmonic mean(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-harmonic-mean)) :keys "H I u M" :active (>= (calc-stack-size) 1)] ["geometric mean(1:)" (progn (require 'calc-stat) (call-interactively 'calc-vector-geometric-mean)) :keys "u G" :active (>= (calc-stack-size) 1)] ["arithmetic-geometric mean(1:)" (progn (require 'calc-stat) (let ((calc-hyperbolic-flag t)) (call-interactively 'calc-vector-geometric-mean))) :keys "H u G" :active (>= (calc-stack-size) 1)] ;; ["RMS(1:)" ;; (progn (require 'calc-arith) ;; (call-interactively 'calc-abs)) ;; :keys "A" ;; :active (>= (calc-stack-size) 1) ;; :help "The root-mean-square, or quadratic mean"] ) ["Abbreviate long vectors" (progn (require 'calc-mode) (call-interactively 'calc-full-vectors)) :keys "v ." :style toggle :selected (not calc-full-vectors)] "----" ["Help on Matrices/Vectors" (calc-info-goto-node "Matrix Functions")]) "Menu for Calc's vector and matrix functions.") (defvar calc-units-menu (list "Units" ["Convert units in (1:)" (progn (require 'calc-units) (call-interactively 'calc-convert-units )) :keys "u c" :active (>= (calc-stack-size) 1)] ["Convert temperature in (1:)" (progn (require 'calc-units) (call-interactively 'calc-convert-temperature)) :keys "u t" :active (>= (calc-stack-size) 1)] ["Simplify units in (1:)" (progn (require 'calc-units) (call-interactively 'calc-simplify-units)) :keys "u s" :active (>= (calc-stack-size) 1)] ["View units table" (progn (require 'calc-units) (call-interactively 'calc-view-units-table)) :keys "u V"] (list "Logarithmic Units" ["Convert (1:) to dB (power)" (progn (require 'calc-units) (call-interactively 'calc-db)) :keys "l d" :active (>= (calc-stack-size) 1)] ["Convert (2:) to dB (power) with reference level (1:)" (progn (require 'calc-units) (let ((calc-option-flag t)) (call-interactively 'calc-db))) :keys "O l d" :active (>= (calc-stack-size) 2)] ["Convert (1:) to Np (power)" (progn (require 'calc-units) (call-interactively 'calc-np)) :keys "l n" :active (>= (calc-stack-size) 1)] ["Convert (2:) to Np (power) with reference level (1:)" (progn (require 'calc-units) (let ((calc-option-flag t)) (call-interactively 'calc-np))) :keys "O l n" :active (>= (calc-stack-size) 2)] ["Convert (1:) to power quantity" (progn (require 'calc-units) (call-interactively 'calc-lu-quant)) :keys "l q" :active (>= (calc-stack-size) 1)] ["Convert (2:) to power quantity with reference level (1:)" (progn (require 'calc-units) (let ((calc-option-flag t)) (call-interactively 'calc-lu-quant))) :keys "O l q" :active (>= (calc-stack-size) 2)] "----" ["Convert (1:) to dB (field)" (progn (require 'calc-units) (let ((calc-hyperbolic-flag t)) (call-interactively 'calc-db))) :keys "H l d" :active (>= (calc-stack-size) 1)] ["Convert (2:) to dB (field) with reference level (1:)" (progn (require 'calc-units) (let ((calc-option-flag t) (calc-hyperbolic-flag t)) (call-interactively 'calc-db))) :keys "O H l d" :active (>= (calc-stack-size) 2)] ["Convert (1:) to Np (field)" (progn (require 'calc-units) (let ((calc-hyperbolic-flag t)) (call-interactively 'calc-np))) :keys "H l n" :active (>= (calc-stack-size) 1)] ["Convert (2:) to Np (field) with reference level (1:)" (progn (require 'calc-units) (let ((calc-option-flag t) (calc-hyperbolic-flag t)) (call-interactively 'calc-np))) :keys "O H l d" :active (>= (calc-stack-size) 2)] ["Convert (1:) to field quantity" (progn (require 'calc-units) (let ((calc-hyperbolic-flag t)) (call-interactively 'calc-lu-quant))) :keys "H l q" :active (>= (calc-stack-size) 1)] ["Convert (2:) to field quantity with reference level (1:)" (progn (require 'calc-units) (let ((calc-option-flag t) (calc-hyperbolic-flag)) (call-interactively 'calc-lu-quant))) :keys "O H l q" :active (>= (calc-stack-size) 2)]) (list "Musical Notes" ["Convert (1:) to scientific pitch notation" (progn (require 'calc-units) (call-interactively 'calc-spn)) :keys "l s" :active (>= (calc-stack-size) 1)] ["Convert (1:) to midi number" (progn (require 'calc-units) (call-interactively 'calc-midi)) :keys "l m" :active (>= (calc-stack-size) 1)] ["Convert (1:) to frequency" (progn (require 'calc-units) (call-interactively 'calc-freq)) :keys "l f" :active (>= (calc-stack-size) 1)]) "----" ["Help on Units" (calc-info-goto-node "Units")]) "Menu for Calc's units functions.") (defvar calc-variables-menu (list "Variables" ["Store (1:) into a variable" (progn (require 'calc-store) (call-interactively 'calc-store)) :keys "s s" :active (>= (calc-stack-size) 1)] ["Recall a variable value" (progn (require 'calc-store) (call-interactively 'calc-recall )) :keys "s r"] ["Edit the value of a variable" (progn (require 'calc-store) (call-interactively 'calc-edit-variable)) :keys "s e"] ["Exchange (1:) with a variable value" (progn (require 'calc-store) (call-interactively 'calc-store-exchange)) :keys "s x" :active (>= (calc-stack-size) 1)] ["Clear variable value" (progn (require 'calc-store) (call-interactively 'calc-unstore)) :keys "s u"] ["Evaluate variables in (1:)" (progn (require 'calc-ext) (call-interactively 'calc-evaluate)) :keys "=" :active (>= (calc-stack-size) 1)] ["Evaluate (1:), assigning a value to a variable" (progn (require 'calc-store) (call-interactively 'calc-let)) :keys "s l" :active (>= (calc-stack-size) 1) :help "Evaluate (1:) under a temporary assignment of a variable"] "----" ["Help on Variables" (calc-info-goto-node "Store and Recall")]) "Menu for Calc's variables.") (defvar calc-stack-menu (list "Stack" ["Remove (1:)" calc-pop :keys "DEL" :active (>= (calc-stack-size) 1)] ["Switch (1:) and (2:)" calc-roll-down :keys "TAB" :active (>= (calc-stack-size) 2)] ["Duplicate (1:)" calc-enter :keys "RET" :active (>= (calc-stack-size) 1)] ["Edit (1:)" (progn (require 'calc-yank) (call-interactively calc-edit)) :keys "`" :active (>= (calc-stack-size) 1)] "----" ["Help on Stack" (calc-info-goto-node "Stack and Trail")]) "Menu for Calc's stack functions.") (defvar calc-errors-menu (list "Undo" ["Undo" (progn (require 'calc-undo) (call-interactively 'calc-undo)) :keys "U"] ["Redo" (progn (require 'calc-undo) (call-interactively 'calc-redo)) :keys "D"] "----" ["Help on Undo" (progn (calc-info-goto-node "Introduction") (Info-goto-node "Undo"))])) (defvar calc-modes-menu (list "Modes" ["Precision" (progn (require 'calc-ext) (call-interactively 'calc-precision)) :keys "p" :help "Set the precision for floating point calculations"] ["Fraction mode" (progn (require 'calc-frac) (call-interactively 'calc-frac-mode)) :keys "m f" :style toggle :selected calc-prefer-frac :help "Leave integer quotients as fractions"] ["Symbolic mode" (lambda () (interactive) (require 'calc-mode) (calc-symbolic-mode nil)) :keys "m s" :style toggle :selected calc-symbolic-mode :help "Leave functions producing inexact answers in symbolic form"] ["Infinite mode" (lambda () (interactive) (require 'calc-mode) (calc-infinite-mode nil)) :keys "m i" :style toggle :selected calc-infinite-mode :help "Let expressions like 1/0 produce infinite results"] ["Abbreviate long vectors" (progn (require 'calc-mode) (call-interactively 'calc-full-vectors)) :keys "v ." :style toggle :selected (not calc-full-vectors)] (list "Simplification" ["No simplification mode" (progn (require 'calc-mode) (calc-no-simplify-mode t)) :keys "m O" :style radio :selected (eq calc-simplify-mode 'none) :help "No simplifications are done automatically"] ["Numeric simplification mode" (progn (require 'calc-mode) (calc-num-simplify-mode t)) :keys "m N" :style radio :selected (eq calc-simplify-mode 'num) :help "Only numeric simplifications are done automatically"] ["Basic simplification mode" (progn (require 'calc-mode) (calc-basic-simplify-mode t)) :keys "m I" :style radio :selected (eq calc-simplify-mode nil) :help "Only basic simplifications are done automatically"] ["Binary simplification mode" (progn (require 'calc-mode) (calc-bin-simplify-mode t)) :keys "m B" :style radio :selected (eq calc-simplify-mode 'binary) :help "Basic simplifications with binary clipping are done automatically"] ["Algebraic simplification mode" (progn (require 'calc-mode) (calc-alg-simplify-mode t)) :keys "m A" :style radio :selected (eq calc-simplify-mode 'alg) :help "Standard algebraic simplifications are done automatically"] ["Extended simplification mode" (progn (require 'calc-mode) (calc-ext-simplify-mode t)) :keys "m E" :style radio :selected (eq calc-simplify-mode 'ext) :help "Extended (unsafe) simplifications are done automatically"] ["Units simplification mode" (progn (require 'calc-mode) (calc-units-simplify-mode t)) :keys "m U" :style radio :selected (eq calc-simplify-mode 'units) :help "Algebraic and unit simplifications are done automatically"]) (list "Angle Measure" ["Radians" (progn (require 'calc-math) (call-interactively 'calc-radians-mode)) :keys "m r" :style radio :selected (eq calc-angle-mode 'rad)] ["Degrees" (progn (require 'calc-math) (call-interactively 'calc-degrees-mode)) :keys "m d" :style radio :selected (eq calc-angle-mode 'deg)] ["HMS" (progn (require 'calc-math) (call-interactively 'calc-hms-mode)) :keys "m h" :style radio :selected (eq calc-angle-mode 'hms)]) (list "Radix" ["Decimal" (progn (require 'calc-bin) (call-interactively 'calc-decimal-radix)) :keys "d 0" :style radio :selected (and (= calc-number-radix 10) (not calc-twos-complement-mode))] ["Binary" (progn (require 'calc-bin) (call-interactively 'calc-binary-radix)) :keys "d 2" :style radio :selected (and (= calc-number-radix 2) (not calc-twos-complement-mode))] ["Octal" (progn (require 'calc-bin) (call-interactively 'calc-octal-radix)) :keys "d 8" :style radio :selected (and (= calc-number-radix 8) (not calc-twos-complement-mode))] ["Hexadecimal" (progn (require 'calc-bin) (call-interactively 'calc-hex-radix)) :keys "d 6" :style radio :selected (and (= calc-number-radix 16) (not calc-twos-complement-mode))] ["Other" (progn (require 'calc-bin) (call-interactively 'calc-radix)) :keys "d r" :style radio :selected (and (not calc-twos-complement-mode) (not (or (= calc-number-radix 10) (= calc-number-radix 2) (= calc-number-radix 8) (= calc-number-radix 16))))] ["--Two's Complement--" (lambda () ()) :style radio :selected nil] ["Binary" (progn (require 'calc-bin) (call-interactively (lambda () (interactive) (calc-binary-radix t)))) :keys "C-u d 2" :style radio :selected (and (= calc-number-radix 2) calc-twos-complement-mode)] ["Octal" (progn (require 'calc-bin) (call-interactively (lambda () (interactive) (calc-octal-radix t)))) :keys "C-u d 8" :style radio :selected (and (= calc-number-radix 8) calc-twos-complement-mode)] ["Hexadecimal" (progn (require 'calc-bin) (call-interactively (lambda () (interactive) (calc-hex-radix t)))) :keys "C-u d 6" :style radio :selected (and (= calc-number-radix 16) calc-twos-complement-mode)]) (list "Float Format" ["Normal" (progn (require 'calc-mode) (call-interactively 'calc-normal-notation)) :keys "d n" :style radio :selected (eq (car-safe calc-float-format) 'float)] ["Fixed point" (progn (require 'calc-mode) (call-interactively 'calc-fix-notation)) :keys "d f" :style radio :selected (eq (car-safe calc-float-format) 'fix)] ["Scientific notation" (progn (require 'calc-mode) (call-interactively 'calc-sci-notation)) :keys "d s" :style radio :selected (eq (car-safe calc-float-format) 'sci)] ["Engineering notation" (progn (require 'calc-mode) (call-interactively 'calc-eng-notation)) :keys "d e" :style radio :selected (eq (car-safe calc-float-format) 'eng)]) (list "Complex Format" ["Default" (progn (require 'calc-cplx) (calc-complex-notation)) :style radio :selected (not calc-complex-format) :keys "d c" :help "Display complex numbers as ordered pairs."] ["i notation" (progn (require 'calc-cplx) (calc-i-notation)) :style radio :selected (eq calc-complex-format 'i) :keys "d i" :help "Display complex numbers as a+bi."] ["j notation" (progn (require 'calc-cplx) (calc-i-notation)) :style radio :selected (eq calc-complex-format 'j) :keys "d j" :help "Display complex numbers as a+bj."] ["Other" (calc-complex-notation) :style radio :selected (and calc-complex-format (not (eq calc-complex-format 'i)) (not (eq calc-complex-format 'j))) :active nil] "----" ["Polar mode" (progn (require 'calc-cplx) (calc-polar-mode nil)) :style toggle :selected (eq calc-complex-mode 'polar) :keys "m p" :help "Prefer polar form for complex numbers."]) (list "Algebraic" ["Normal" (progn (require 'calc-mode) (cond (calc-incomplete-algebraic-mode (calc-algebraic-mode t)) (calc-algebraic-mode (calc-algebraic-mode nil)))) :style radio :selected (not calc-algebraic-mode)] ["Algebraic mode" (progn (require 'calc-mode) (if (or calc-incomplete-algebraic-mode (not calc-algebraic-mode)) (calc-algebraic-mode nil))) :keys "m a" :style radio :selected (and calc-algebraic-mode (not calc-incomplete-algebraic-mode)) :help "Keys which start numeric entry also start algebraic entry"] ["Incomplete algebraic mode" (progn (require 'calc-mode) (unless calc-incomplete-algebraic-mode (calc-algebraic-mode t))) :keys "C-u m a" :style radio :selected calc-incomplete-algebraic-mode :help "Only ( and [ begin algebraic entry"] ["Total algebraic mode" (progn (require 'calc-mode) (unless (eq calc-algebraic-mode 'total) (calc-total-algebraic-mode nil))) :keys "m t" :style radio :selected (eq calc-algebraic-mode 'total) :help "All regular letters and punctuation begin algebraic entry"]) (list "Matrix" ["Off" (progn (require 'calc-mode) (calc-matrix-mode -1)) :style radio :selected (eq calc-matrix-mode nil) :help "Variables are not assumed to be matrix or scalar"] ["Matrix mode" (progn (require 'calc-mode) (calc-matrix-mode -2)) :style radio :selected (eq calc-matrix-mode 'matrix) :help "Variables are assumed to be matrices"] ["Square matrix mode" (progn (require 'calc-mode) (calc-matrix-mode '(4))) :style radio :selected (eq calc-matrix-mode 'sqmatrix) :help "Variables are assumed to be square matrices"] ["Dimensioned matrix mode" (let ((dim (string-to-number (read-from-minibuffer "Dimension: ")))) (if (natnump dim) (progn (require 'calc-mode) (calc-matrix-mode dim)) (error "The dimension must be a positive integer"))) :style radio :selected (and (integerp calc-matrix-mode) (> calc-matrix-mode 0)) :help "Variables are assumed to be NxN matrices"] ["Scalar mode" (progn (require 'calc-mode) (calc-matrix-mode 0)) :style radio :selected (eq calc-matrix-mode 'scalar) :help "Variables are assumed to be scalars"]) (list "Language" ["Normal" (progn (require 'calc-lang) (call-interactively 'calc-normal-language)) :keys "d N" :style radio :selected (eq calc-language nil)] ["Big" (progn (require 'calc-lang) (call-interactively 'calc-big-language)) :keys "d B" :style radio :selected (eq calc-language 'big) :help "Use textual approximations to various mathematical notations"] ["Flat" (progn (require 'calc-lang) (call-interactively 'calc-flat-language)) :keys "d O" :style radio :selected (eq calc-language 'flat) :help "Write matrices on a single line"] ["C" (progn (require 'calc-lang) (call-interactively 'calc-c-language)) :keys "d C" :style radio :selected (eq calc-language 'c)] ["Pascal" (progn (require 'calc-lang) (call-interactively 'calc-pascal-language)) :keys "d P" :style radio :selected (eq calc-language 'pascal)] ["Fortran" (progn (require 'calc-lang) (call-interactively 'calc-fortran-language)) :keys "d F" :style radio :selected (eq calc-language 'fortran)] ["TeX" (progn (require 'calc-lang) (call-interactively 'calc-tex-language)) :keys "d T" :style radio :selected (eq calc-language 'tex)] ["LaTeX" (progn (require 'calc-lang) (call-interactively 'calc-latex-language)) :keys "d L" :style radio :selected (eq calc-language 'latex)] ["Eqn" (progn (require 'calc-lang) (call-interactively 'calc-eqn-language)) :keys "d E" :style radio :selected (eq calc-language 'eqn)] ["Yacas" (progn (require 'calc-lang) (call-interactively 'calc-yacas-language)) :keys "d Y" :style radio :selected (eq calc-language 'yacas)] ["Maxima" (progn (require 'calc-lang) (call-interactively 'calc-maxima-language)) :keys "d X" :style radio :selected (eq calc-language 'maxima)] ["Giac" (progn (require 'calc-lang) (call-interactively 'calc-giac-language)) :keys "d A" :style radio :selected (eq calc-language 'giac)] ["Mma" (progn (require 'calc-lang) (call-interactively 'calc-mathematica-language)) :keys "d M" :style radio :selected (eq calc-language 'math)] ["Maple" (progn (require 'calc-lang) (call-interactively 'calc-maple-language)) :keys "d W" :style radio :selected (eq calc-language 'maple)]) "----" ["Save mode settings" calc-save-modes :keys "m m"] "----" ["Help on Modes" (calc-info-goto-node "Mode settings")]) "Menu for Calc's mode settings.") (defvar calc-help-menu (list "Help" ["Manual" calc-info :keys "h i"] ["Tutorial" calc-tutorial :keys "h t"] ["Summary" calc-info-summary :keys "h s"] "----" ["Help on Help" (progn (calc-info-goto-node "Introduction") (Info-goto-node "Help Commands"))]) "Menu for Calc's help functions.") ;; Needed to make this file loadable in isolation. ;; Another option would be to use calc-load-hook. (require 'calc) (easy-menu-define calc-menu calc-mode-map "Menu for Calc." (list "Calc" :visible '(eq major-mode 'calc-mode) calc-arithmetic-menu calc-scientific-function-menu calc-algebra-menu calc-graphics-menu calc-vectors-menu calc-units-menu calc-variables-menu calc-stack-menu calc-errors-menu calc-modes-menu calc-help-menu ["Reset" (progn (require 'calc-ext) (call-interactively 'calc-reset)) :help "Reset Calc to its initial state"] ["Quit" calc-quit])) (provide 'calc-menu)