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| author | Glenn Morris <rgm@gnu.org> | 2009-09-19 21:11:40 +0000 |
|---|---|---|
| committer | Glenn Morris <rgm@gnu.org> | 2009-09-19 21:11:40 +0000 |
| commit | f3445fab9fa6609d316b3dbcabb40e02e7a4dfc4 (patch) | |
| tree | a72ab5971e572bbbaacae9cf500b881049122ded /lisp/calc/calcalg2.el | |
| parent | a9c83b2f0cfedf2961217e4fa7ed7fc8d67dfac5 (diff) | |
| download | emacs-f3445fab9fa6609d316b3dbcabb40e02e7a4dfc4.tar.gz | |
(var): Define for compiler.
Delete trailing whitespace.
Diffstat (limited to 'lisp/calc/calcalg2.el')
| -rw-r--r-- | lisp/calc/calcalg2.el | 101 |
1 files changed, 51 insertions, 50 deletions
diff --git a/lisp/calc/calcalg2.el b/lisp/calc/calcalg2.el index aead48ddc01..f222360ed48 100644 --- a/lisp/calc/calcalg2.el +++ b/lisp/calc/calcalg2.el @@ -198,7 +198,7 @@ (prefix-numeric-value nterms)))))) -;; The following are global variables used by math-derivative and some +;; The following are global variables used by math-derivative and some ;; related functions (defvar math-deriv-var) (defvar math-deriv-total) @@ -416,7 +416,7 @@ (list 'calcFunc-sec u))))))) (put 'calcFunc-sec\' 'math-derivative-1 - (function (lambda (u) (math-to-radians-2 + (function (lambda (u) (math-to-radians-2 (math-mul (math-normalize (list 'calcFunc-sec u)) @@ -424,7 +424,7 @@ (list 'calcFunc-tan u))))))) (put 'calcFunc-csc\' 'math-derivative-1 - (function (lambda (u) (math-neg + (function (lambda (u) (math-neg (math-to-radians-2 (math-mul (math-normalize @@ -657,14 +657,14 @@ ;; which are called (directly or indirectly) by math-try-integral. (defvar math-integ-depth) ;; math-integ-level is a local variable for math-try-integral, but is used -;; by math-integral, math-do-integral, math-tracing-integral, -;; math-sub-integration, math-integrate-by-parts and -;; math-integrate-by-substitution, which are called (directly or +;; by math-integral, math-do-integral, math-tracing-integral, +;; math-sub-integration, math-integrate-by-parts and +;; math-integrate-by-substitution, which are called (directly or ;; indirectly) by math-try-integral. (defvar math-integ-level) ;; math-integral-limit is a local variable for calcFunc-integ, but is -;; used by math-tracing-integral, math-sub-integration and -;; math-try-integration. +;; used by math-tracing-integral, math-sub-integration and +;; math-try-integration. (defvar math-integral-limit) (defmacro math-tracing-integral (&rest parts) @@ -828,11 +828,11 @@ ;; used by math-sub-integration. (defvar math-old-integ) -;; The variables math-t1, math-t2 and math-t3 are local to +;; The variables math-t1, math-t2 and math-t3 are local to ;; math-do-integral, math-try-solve-for and math-decompose-poly, but -;; are used by functions they call (directly or indirectly); +;; are used by functions they call (directly or indirectly); ;; math-do-integral calls math-do-integral-methods; -;; math-try-solve-for calls math-try-solve-prod, +;; math-try-solve-for calls math-try-solve-prod, ;; math-solve-find-root-term and math-solve-find-root-in-prod; ;; math-decompose-poly calls math-solve-poly-funny-powers and ;; math-solve-crunch-poly. @@ -1075,12 +1075,12 @@ (list 'calcFunc-integfailed expr))) ;; math-so-far is a local variable for math-do-integral-methods, but -;; is used by math-integ-try-linear-substitutions and +;; is used by math-integ-try-linear-substitutions and ;; math-integ-try-substitutions. (defvar math-so-far) ;; math-integ-expr is a local variable for math-do-integral-methods, -;; but is used by math-integ-try-linear-substitutions and +;; but is used by math-integ-try-linear-substitutions and ;; math-integ-try-substitutions. (defvar math-integ-expr) @@ -1253,8 +1253,8 @@ temp (let (calc-next-why) (math-simplify-extended (math-solve-for (math-sub v temp) 0 v nil))) - temp (if (and (eq (car-safe temp) '/) - (math-zerop (nth 2 temp))) + temp (if (and (eq (car-safe temp) '/) + (math-zerop (nth 2 temp))) nil temp))))) (setcar (cdr math-cur-record) 'busy))))) @@ -1675,7 +1675,7 @@ (math-defintegral calcFunc-sec (and (equal u math-integ-var) (math-from-radians-2 - (list 'calcFunc-ln + (list 'calcFunc-ln (math-add (list 'calcFunc-sec u) (list 'calcFunc-tan u)))))) @@ -1683,7 +1683,7 @@ (math-defintegral calcFunc-csc (and (equal u math-integ-var) (math-from-radians-2 - (list 'calcFunc-ln + (list 'calcFunc-ln (math-sub (list 'calcFunc-csc u) (list 'calcFunc-cot u)))))) @@ -1882,13 +1882,14 @@ (defvar math-tabulate-initial nil) (defvar math-tabulate-function nil) -;; The variables calc-low and calc-high are local to calcFunc-table, -;; but are used by math-scan-for-limits. +;; These variables are local to calcFunc-table, but are used by +;; math-scan-for-limits. (defvar calc-low) (defvar calc-high) +(defvar var) (defun calcFunc-table (expr var &optional calc-low calc-high step) - (or calc-low + (or calc-low (setq calc-low '(neg (var inf var-inf)) calc-high '(var inf var-inf))) (or calc-high (setq calc-high calc-low calc-low 1)) (and (or (math-infinitep calc-low) (math-infinitep calc-high)) @@ -2348,23 +2349,23 @@ (defvar math-solve-ranges nil) (defvar math-solve-sign) -;;; Attempt to reduce math-solve-lhs = math-solve-rhs to +;;; Attempt to reduce math-solve-lhs = math-solve-rhs to ;;; math-solve-var = math-solve-rhs', where math-solve-var appears -;;; in math-solve-lhs but not in math-solve-rhs or math-solve-rhs'; +;;; in math-solve-lhs but not in math-solve-rhs or math-solve-rhs'; ;;; return math-solve-rhs'. ;;; Uses global values: math-solve-var, math-solve-full. (defvar math-solve-var) (defvar math-solve-full) -;; The variables math-solve-lhs, math-solve-rhs and math-try-solve-sign -;; are local to math-try-solve-for, but are used by math-try-solve-prod. -;; (math-solve-lhs and math-solve-rhs are is also local to +;; The variables math-solve-lhs, math-solve-rhs and math-try-solve-sign +;; are local to math-try-solve-for, but are used by math-try-solve-prod. +;; (math-solve-lhs and math-solve-rhs are is also local to ;; math-decompose-poly, but used by math-solve-poly-funny-powers.) (defvar math-solve-lhs) (defvar math-solve-rhs) (defvar math-try-solve-sign) -(defun math-try-solve-for +(defun math-try-solve-for (math-solve-lhs math-solve-rhs &optional math-try-solve-sign no-poly) (let (math-t1 math-t2 math-t3) (cond ((equal math-solve-lhs math-solve-var) @@ -2395,7 +2396,7 @@ (setq math-t2 (funcall math-t1 '(var SOLVEDUM SOLVEDUM))) (eq (math-expr-contains-count math-t2 '(var SOLVEDUM SOLVEDUM)) 1) (setq math-t3 (math-solve-above-dummy math-t2)) - (setq math-t1 (math-try-solve-for + (setq math-t1 (math-try-solve-for (math-sub (nth 1 (nth 1 math-solve-lhs)) (math-expr-subst math-t2 math-t3 @@ -2407,8 +2408,8 @@ (and math-try-solve-sign (- math-try-solve-sign)))) ((and (not (eq math-solve-full 't)) (math-try-solve-prod))) ((and (not no-poly) - (setq math-t2 - (math-decompose-poly math-solve-lhs + (setq math-t2 + (math-decompose-poly math-solve-lhs math-solve-var 15 math-solve-rhs))) (setq math-t1 (cdr (nth 1 math-t2)) math-t1 (let ((math-solve-ranges math-solve-ranges)) @@ -2419,7 +2420,7 @@ ((= (length math-t1) 3) (apply 'math-solve-quadratic (car math-t2) math-t1)) ((= (length math-t1) 2) - (apply 'math-solve-linear + (apply 'math-solve-linear (car math-t2) math-try-solve-sign math-t1)) (math-solve-full (math-poly-all-roots (car math-t2) math-t1)) @@ -2474,7 +2475,7 @@ ((not (math-expr-contains (nth 1 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 2 math-solve-lhs) (math-sub (nth 1 math-solve-lhs) math-solve-rhs) - (and math-try-solve-sign + (and math-try-solve-sign (- math-try-solve-sign)))) ((not (math-expr-contains (nth 2 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 1 math-solve-lhs) @@ -2488,7 +2489,7 @@ (nth 2 math-solve-lhs))))) ((eq (car math-solve-lhs) 'calcFunc-log) (cond ((not (math-expr-contains (nth 2 math-solve-lhs) math-solve-var)) - (math-try-solve-for (nth 1 math-solve-lhs) + (math-try-solve-for (nth 1 math-solve-lhs) (math-pow (nth 2 math-solve-lhs) math-solve-rhs))) ((not (math-expr-contains (nth 1 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 2 math-solve-lhs) (math-pow @@ -2503,7 +2504,7 @@ (and math-try-solve-sign math-t1 (if (integerp math-t1) (* math-t1 math-try-solve-sign) - (funcall math-t1 math-solve-lhs + (funcall math-t1 math-solve-lhs math-try-solve-sign))))) ((and (symbolp (car math-solve-lhs)) (setq math-t1 (get (car math-solve-lhs) 'math-inverse-n)) @@ -2521,12 +2522,12 @@ (cond ((not (math-expr-contains (nth 1 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 2 math-solve-lhs) (math-div math-solve-rhs (nth 1 math-solve-lhs)) - (math-solve-sign math-try-solve-sign + (math-solve-sign math-try-solve-sign (nth 1 math-solve-lhs)))) ((not (math-expr-contains (nth 2 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 1 math-solve-lhs) (math-div math-solve-rhs (nth 2 math-solve-lhs)) - (math-solve-sign math-try-solve-sign + (math-solve-sign math-try-solve-sign (nth 2 math-solve-lhs)))) ((Math-zerop math-solve-rhs) (math-solve-prod (let ((math-solve-ranges math-solve-ranges)) @@ -2536,12 +2537,12 @@ (cond ((not (math-expr-contains (nth 1 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 2 math-solve-lhs) (math-div (nth 1 math-solve-lhs) math-solve-rhs) - (math-solve-sign math-try-solve-sign + (math-solve-sign math-try-solve-sign (nth 1 math-solve-lhs)))) ((not (math-expr-contains (nth 2 math-solve-lhs) math-solve-var)) (math-try-solve-for (nth 1 math-solve-lhs) (math-mul math-solve-rhs (nth 2 math-solve-lhs)) - (math-solve-sign math-try-solve-sign + (math-solve-sign math-try-solve-sign (nth 2 math-solve-lhs)))) ((setq math-t1 (math-try-solve-for (math-sub (nth 1 math-solve-lhs) (math-mul (nth 2 math-solve-lhs) @@ -2581,14 +2582,14 @@ (math-normalize math-t2))) ((math-looks-negp (nth 2 math-solve-lhs)) (math-try-solve-for - (list '^ (nth 1 math-solve-lhs) + (list '^ (nth 1 math-solve-lhs) (math-neg (nth 2 math-solve-lhs))) (math-div 1 math-solve-rhs))) ((and (eq math-solve-full t) (Math-integerp (nth 2 math-solve-lhs)) (math-known-realp (nth 1 math-solve-lhs))) (setq math-t1 (math-normalize - (list 'calcFunc-nroot math-solve-rhs + (list 'calcFunc-nroot math-solve-rhs (nth 2 math-solve-lhs)))) (if (math-evenp (nth 2 math-solve-lhs)) (setq math-t1 (math-solve-get-sign math-t1))) @@ -2596,7 +2597,7 @@ (nth 1 math-solve-lhs) math-t1 (and math-try-solve-sign (math-oddp (nth 2 math-solve-lhs)) - (math-solve-sign math-try-solve-sign + (math-solve-sign math-try-solve-sign (nth 2 math-solve-lhs))))) (t (math-try-solve-for (nth 1 math-solve-lhs) @@ -2628,7 +2629,7 @@ (nth 2 math-solve-lhs)))) (and math-try-solve-sign (math-oddp (nth 2 math-solve-lhs)) - (math-solve-sign math-try-solve-sign + (math-solve-sign math-try-solve-sign (nth 2 math-solve-lhs))))))))) (t nil))) @@ -2665,7 +2666,7 @@ (setq math-t2 (math-mul (or math-poly-mult-powers 1) (let ((calc-prefer-frac t)) (math-div 1 math-poly-frac-powers))) - math-t1 (math-is-polynomial + math-t1 (math-is-polynomial (math-simplify (calcFunc-expand math-t1)) math-solve-b 50)))) ;;; This converts "a x^8 + b x^5 + c x^2" to "(a (x^3)^2 + b (x^3) + c) * x^2". @@ -2694,7 +2695,7 @@ (setq math-t3 (cons scale (cdr math-t3)) math-t1 new-t1)))) (setq scale (1- scale))) - (setq math-t3 (list (math-mul (car math-t3) math-t2) + (setq math-t3 (list (math-mul (car math-t3) math-t2) (math-mul count math-t2))) (<= (1- (length math-t1)) max-degree))))) @@ -2733,7 +2734,7 @@ (and (not (equal math-solve-b math-solve-lhs)) (or (not (memq (car-safe math-solve-b) '(+ -))) sub-rhs) (setq math-t3 '(1 0) math-t2 1 - math-t1 (math-is-polynomial math-solve-lhs + math-t1 (math-is-polynomial math-solve-lhs math-solve-b 50)) (if (and (equal math-poly-neg-powers '(1)) (memq math-poly-mult-powers '(nil 1)) @@ -3217,7 +3218,7 @@ (and (not (math-expr-contains (nth 2 x) math-solve-var)) (math-solve-find-root-in-prod (nth 1 x)))))))) -;; The variable math-solve-vars is local to math-solve-system, +;; The variable math-solve-vars is local to math-solve-system, ;; but is used by math-solve-system-rec. (defvar math-solve-vars) @@ -3282,7 +3283,7 @@ (while (and e2 (setq res2 (or (and (eq (car e2) eprev) res2) - (math-solve-for (car e2) 0 + (math-solve-for (car e2) 0 math-solve-system-vv math-solve-full)))) (setq eprev (car e2) @@ -3313,8 +3314,8 @@ solns))) (if elim s - (cons (cons - math-solve-system-vv + (cons (cons + math-solve-system-vv (apply 'append math-solve-system-res)) s))))) (not math-solve-system-res)))) @@ -3350,9 +3351,9 @@ (lambda (r) (if math-solve-simplifying (math-simplify - (math-expr-subst + (math-expr-subst (car x) math-solve-system-vv r)) - (math-expr-subst + (math-expr-subst (car x) math-solve-system-vv r)))) (car res2))) x (cdr x) |