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Added more builtin inverse conversion functions

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Added builtin functions to convert between degrees, minutes and
    seconds and degrees under the config("mod") round rules:

	dms2d(d, m, s [,rnd]) - convert deg, min, and secs to deg
	dm2d(d, m [,rnd]) - convert deg, min to deg

	See help/dms2d and help/dm2d.

    Example:

	; print dms2d(12, 20, 44.16);
	12.3456

	; print dm2d(3601, -25.5594);
	0.57401

    Added builtin functions to convert between gradians, minutes and
    seconds and gradians under the config("mod") round rules:

	gms2g(g, m, s [,rnd]) - convert grad, min, and secs to grad
	gm2g(g, m [,rnd]) - convert grad and min to grad

	See help/g2gms and help/g2gm.

    Example:

	; print gms2g(12, 20, 44.16);
	12.3456

	; print gm2g(4001, -25.5594);
	0.57401

    Added builtin functions to convert between hours, minutes and
    seconds and hours under the config("mod") round rules:

	hms2h(h, m, s [,rnd]) - convert hours, min, and secs to hours
	hm2h(h, m [,rnd]) - convert hours, min to hours

	See help/hms2h and help/hm2h.

    Example:

	; print hms2h(12, 20, 44.16);
	12.3456

	; print hm2h(241, -25.5594);
	0.57401
This commit is contained in:
Landon Curt Noll
2021-09-27 02:14:18 -07:00
parent d5de36841a
commit ada15fdabc
10 changed files with 833 additions and 8 deletions
Download Patch File Download Diff File Expand all files Collapse all files

48
CHANGES
View File

@@ -143,6 +143,54 @@ The following are the changes from calc version 2.14.0.0 to date:
Added a few more examples to help/strcmp. Added a few more examples to help/strcmp.
Added builtin functions to convert between degrees, minutes and
seconds and degrees under the config("mod") round rules:
dms2d(d, m, s [,rnd]) - convert deg, min, and secs to deg
dm2d(d, m [,rnd]) - convert deg, min to deg
See help/dms2d and help/dm2d.
Example:
; print dms2d(12, 20, 44.16);
12.3456
; print dm2d(3601, -25.5594);
0.57401
Added builtin functions to convert between gradians, minutes and
seconds and gradians under the config("mod") round rules:
gms2g(g, m, s [,rnd]) - convert grad, min, and secs to grad
gm2g(g, m [,rnd]) - convert grad and min to grad
See help/g2gms and help/g2gm.
Example:
; print gms2g(12, 20, 44.16);
12.3456
; print gm2g(4001, -25.5594);
0.57401
Added builtin functions to convert between hours, minutes and
seconds and hours under the config("mod") round rules:
hms2h(h, m, s [,rnd]) - convert hours, min, and secs to hours
hm2h(h, m [,rnd]) - convert hours, min to hours
See help/hms2h and help/hm2h.
Example:
; print hms2h(12, 20, 44.16);
12.3456
; print hm2h(241, -25.5594);
0.57401
The following are the changes from calc version 2.13.0.1 to 2.13.0.1: The following are the changes from calc version 2.13.0.1 to 2.13.0.1:

110
cal/regress.cal
View File

@@ -8563,7 +8563,115 @@ define test_functions3()
vrfy(m == -40.74, vrfy(m == -40.74,
'9213: m == -40.74'); '9213: m == -40.74');
print '9214: Ending test_functions3'; /* dm2d */
vrfy(dm2d(203, 325.5594) == 208.42599,
'9214: dm2d(203, 325.5594) == 208.42599');
vrfy(dm2d(3601, -25.5594) == 0.57401,
'9215: dm2d(3601, -25.5594) == 0.57401');
vrfy(dm2d(-923, -25.5594) == 156.57401,
'9216: dm2d(-923, -25.5594) == 156.57401');
vrfy(dm2d(203, 325.5594, 1) == -151.57401,
'9217: dm2d(203, 325.5594, 1) == -151.57401');
vrfy(d2dm(dm2d(12, 20.16),d,m) == 12.336,
'9218: d2dm(dm2d(12, 20.16),d,m) == 12.336');
vrfy(d == 12,
'9219: d == 12');
vrfy(m == 20.16,
'9220: m == 20.16');
/* dms2d */
vrfy(dms2d(12, 20, 44.16) == 12.3456,
'9221: dms2d(12, 20, 44.16) == 12.3456');
vrfy(dms2d(123.456, -345.68, 4.08) == 117.6958,
'9222: dms2d(123.456, -345.68, 4.08) == 117.6958');
vrfy(dms2d(-65, -40, -44.4) == 294.321,
'9223: dms2d(-65, -40, -44.4) == 294.321');
vrfy(dms2d(12, 20, 44.16, 1) == -347.6544,
'9224: dms2d(12, 20, 44.16, 1) == -347.6544');
vrfy(d2dms(dms2d(13, 20, 44.16),d,m,s) == 13.3456,
'9225: d2dms(dms2d(13, 20, 44.16),d,m,s) == 13.3456');
vrfy(d == 13,
'9226: d == 13');
vrfy(m == 20,
'9227: m == 20');
vrfy(s == 44.16,
'9228: s == 44.16');
/* gm2g */
vrfy(gm2g(203, 325.5594) == 208.42599,
'9229: gm2g(203, 325.5594) == 208.42599');
vrfy(gm2g(3601, -25.5594) == 0.57401,
'9230: gm2g(3601, -25.5594) == 0.57401');
vrfy(gm2g(-923, -25.5594) == 276.57401,
'9231: gm2g(-923, -25.5594) == 276.57401');
vrfy(gm2g(203, 325.5594, 1) == -191.57401,
'9232: gm2g(203, 325.5594, 1) == -191.57401');
vrfy(g2gm(gm2g(12, 20.16),g,m) == 12.336,
'9233: g2gm(gm2g(12, 20.16),g,m) == 12.336');
vrfy(g == 12,
'9234: g == 12');
vrfy(m == 20.16,
'9235: m == 20.16');
/* gms2g */
vrfy(gms2g(12, 20, 44.16) == 12.3456,
'9236: gms2g(12, 20, 44.16) == 12.3456');
vrfy(gms2g(123.456, -345.68, 4.08) == 117.6958,
'9237: gms2g(123.456, -345.68, 4.08) == 117.6958');
vrfy(gms2g(-65, -40, -44.4) == 334.321,
'9238: gms2g(-65, -40, -44.4) == 334.321');
vrfy(gms2g(12, 20, 44.16, 1) == -387.6544,
'9239: gms2g(12, 20, 44.16, 1) == -387.6544');
vrfy(g2gms(gms2g(14, 20, 44.16),g,m,s) == 14.3456,
'9240: g2gms(gms2g(14, 20, 44.16),g,m,s) == 14.3456');
vrfy(g == 14,
'9241: g == 14');
vrfy(m == 20,
'9242: m == 20');
vrfy(s == 44.16,
'9243: s == 44.16');
/* hm2h */
vrfy(hm2h(203, 325.5594) == 16.42599,
'9244: hm2h(203, 325.5594) == 16.42599');
vrfy(hm2h(241, -25.5594) == 0.57401,
'9245: hm2h(241, -25.5594) == 0.57401');
vrfy(hm2h(-923, -25.5594) == 12.57401,
'9246: hm2h(-923, -25.5594) == 12.57401');
vrfy(hm2h(203, 325.5594, 1) == -7.57401,
'9247: hm2h(203, 325.5594, 1) == -7.57401');
vrfy(h2hm(hm2h(12, 20.16),h,m) == 12.336,
'9248: h2hm(hm2h(12, 20.16),h,m) == 12.336');
vrfy(h == 12,
'9249: h == 12');
vrfy(m == 20.16,
'9250: m == 20.16');
/* hms2h */
vrfy(hms2h(12, 20, 44.16) == 12.3456,
'9251: hms2h(12, 20, 44.16) == 12.3456');
vrfy(hms2h(123.456, -345.68, 4.08) == 21.6958,
'9252: hms2h(123.456, -345.68, 4.08) == 21.6958');
vrfy(hms2h(-65, -40, -44.4) == 6.321,
'9253: hms2h(-65, -40, -44.4) == 6.321');
vrfy(hms2h(12, 20, 44.16, 1) == -11.6544,
'9254: hms2h(12, 20, 44.16, 1) == -11.6544');
vrfy(h2hms(hms2h(15, 20, 44.16),h,m,s) == 15.3456,
'9255: h2hms(hms2h(15, 20, 44.16),h,m,s) == 15.3456');
vrfy(h == 15,
'9256: h == 15');
vrfy(m == 20,
'9257: m == 20');
vrfy(s == 44.16,
'9258: s == 44.16');
print '9259: Ending test_functions3';
} }
print; print;
print '9100: parsed test_functions3()'; print '9100: parsed test_functions3()';

12
calcerr.tbl
View File

@@ -530,3 +530,15 @@ E_H2HM1 Non-lvalue arguments 2 or 3 for h2hm
E_H2HM2 Non-real-number arg 1 for h2hm E_H2HM2 Non-real-number arg 1 for h2hm
E_H2HM3 No-assign-to argument 2 or 3 for h2hm E_H2HM3 No-assign-to argument 2 or 3 for h2hm
E_H2HM4 Invalid rounding arg 4 for h2hm E_H2HM4 Invalid rounding arg 4 for h2hm
E_DMS2D1 Non-real-number aarguments 1, 2 or 3 for dms2d
E_DMS2D2 Invalid rounding arg 4 for dms2d
E_DM2D1 Non-real-number aarguments 1 or 2 for dm2d
E_DM2D2 Invalid rounding arg 4 for dm2d
E_GMS2G1 Non-real-number aarguments 1, 2 or 3 for gms2g
E_GMS2G2 Invalid rounding arg 4 for gms2g
E_GM2G1 Non-real-number aarguments 1 or 2 for gm2g
E_GM2G2 Invalid rounding arg 4 for gm2g
E_HMS2H1 Non-real-number aarguments 1, 2 or 3 for hms2h
E_HMS2H2 Invalid rounding arg 4 for hms2h
E_HM2H1 Non-real-number aarguments 1 or 2 for hm2h
E_HM2H2 Invalid rounding arg 4 for hm2h

402
func.c
View File

@@ -4588,6 +4588,396 @@ f_h2hm(int count, VALUE **vals)
} }
S_FUNC VALUE
f_dms2d(int count, VALUE **vals)
{
VALUE *v1, *v2, *v3, *v4;
NUMBER *tmp, *tmp2, *tmp3, *tmp4;
VALUE result;
long rnd;
/* collect required args */
v1 = vals[0];
v2 = vals[1];
v3 = vals[2];
/* determine rounding mode */
if (count == 4) {
v4 = vals[3];
if (v4->v_type == V_ADDR) {
v4 = v4->v_addr;
}
if (v4->v_type != V_NUM || qisfrac(v4->v_num) ||
qisneg(v4->v_num) || zge31b(v4->v_num->num)) {
return error_value(E_DMS2D2);
}
rnd = qtoi(v4->v_num);
} else {
rnd = conf->quomod;
}
/* type parse args */
if (v1->v_type != V_NUM || v2->v_type != V_NUM ||
v3->v_type != V_NUM) {
return error_value(E_DMS2D1);
}
/*
* compute s/3600
*/
tmp = qdivi(v3->v_num, 3600);
/*
* compute m/60
*/
tmp2 = qdivi(v2->v_num, 60);
/*
* compute m/60 + s/3600
*/
tmp3 = qqadd(tmp2, tmp);
qfree(tmp);
qfree(tmp2);
/*
* compute d + m/60 + s/3600
*/
tmp4 = qqadd(v1->v_num, tmp3);
qfree(tmp3);
/*
* compute mod(d + m/60 + s/3600, 360, rnd);
*/
result.v_type = v1->v_type;
result.v_subtype = v1->v_subtype;
result.v_num = qmod(tmp4, &_qthreesixty, rnd);
qfree(tmp4);
/*
* return mod(d + m/60 + s/3600, 360, rnd);
*/
return result;
}
S_FUNC VALUE
f_dm2d(int count, VALUE **vals)
{
VALUE *v1, *v2, *v3;
NUMBER *tmp, *tmp2;
VALUE result;
long rnd;
/* collect required args */
v1 = vals[0];
v2 = vals[1];
/* determine rounding mode */
if (count == 3) {
v3 = vals[2];
if (v3->v_type == V_ADDR) {
v3 = v3->v_addr;
}
if (v3->v_type != V_NUM || qisfrac(v3->v_num) ||
qisneg(v3->v_num) || zge31b(v3->v_num->num)) {
return error_value(E_DM2D2);
}
rnd = qtoi(v3->v_num);
} else {
rnd = conf->quomod;
}
/* type parse args */
if (v1->v_type != V_NUM || v2->v_type != V_NUM) {
return error_value(E_DM2D1);
}
/*
* compute m/60
*/
tmp = qdivi(v2->v_num, 60);
/*
* compute d + m/60
*/
tmp2 = qqadd(v1->v_num, tmp);
qfree(tmp);
/*
* compute mod(d + m/60, 360, rnd);
*/
result.v_type = v1->v_type;
result.v_subtype = v1->v_subtype;
result.v_num = qmod(tmp2, &_qthreesixty, rnd);
qfree(tmp2);
/*
* return mod(d + m/60, 360, rnd);
*/
return result;
}
S_FUNC VALUE
f_gms2g(int count, VALUE **vals)
{
VALUE *v1, *v2, *v3, *v4;
NUMBER *tmp, *tmp2, *tmp3, *tmp4;
VALUE result;
long rnd;
/* collect required args */
v1 = vals[0];
v2 = vals[1];
v3 = vals[2];
/* determine rounding mode */
if (count == 4) {
v4 = vals[3];
if (v4->v_type == V_ADDR) {
v4 = v4->v_addr;
}
if (v4->v_type != V_NUM || qisfrac(v4->v_num) ||
qisneg(v4->v_num) || zge31b(v4->v_num->num)) {
return error_value(E_GMS2G2);
}
rnd = qtoi(v4->v_num);
} else {
rnd = conf->quomod;
}
/* type parse args */
if (v1->v_type != V_NUM || v2->v_type != V_NUM ||
v3->v_type != V_NUM) {
return error_value(E_GMS2G1);
}
/*
* compute s/3600
*/
tmp = qdivi(v3->v_num, 3600);
/*
* compute m/60
*/
tmp2 = qdivi(v2->v_num, 60);
/*
* compute m/60 + s/3600
*/
tmp3 = qqadd(tmp2, tmp);
qfree(tmp);
qfree(tmp2);
/*
* compute g + m/60 + s/3600
*/
tmp4 = qqadd(v1->v_num, tmp3);
qfree(tmp3);
/*
* compute mod(g + m/60 + s/3600, 400, rnd);
*/
result.v_type = v1->v_type;
result.v_subtype = v1->v_subtype;
result.v_num = qmod(tmp4, &_qfourhundred, rnd);
qfree(tmp4);
/*
* return mod(g + m/60 + s/3600, 400, rnd);
*/
return result;
}
S_FUNC VALUE
f_gm2g(int count, VALUE **vals)
{
VALUE *v1, *v2, *v3;
NUMBER *tmp, *tmp2;
VALUE result;
long rnd;
/* collect required args */
v1 = vals[0];
v2 = vals[1];
/* determine rounding mode */
if (count == 3) {
v3 = vals[2];
if (v3->v_type == V_ADDR) {
v3 = v3->v_addr;
}
if (v3->v_type != V_NUM || qisfrac(v3->v_num) ||
qisneg(v3->v_num) || zge31b(v3->v_num->num)) {
return error_value(E_GM2G2);
}
rnd = qtoi(v3->v_num);
} else {
rnd = conf->quomod;
}
/* type parse args */
if (v1->v_type != V_NUM || v2->v_type != V_NUM) {
return error_value(E_GM2G1);
}
/*
* compute m/60
*/
tmp = qdivi(v2->v_num, 60);
/*
* compute g + m/60
*/
tmp2 = qqadd(v1->v_num, tmp);
qfree(tmp);
/*
* compute mod(g + m/60, 400, rnd);
*/
result.v_type = v1->v_type;
result.v_subtype = v1->v_subtype;
result.v_num = qmod(tmp2, &_qfourhundred, rnd);
qfree(tmp2);
/*
* return mod(g + m/60, 400, rnd);
*/
return result;
}
S_FUNC VALUE
f_hms2h(int count, VALUE **vals)
{
VALUE *v1, *v2, *v3, *v4;
NUMBER *tmp, *tmp2, *tmp3, *tmp4;
VALUE result;
long rnd;
/* collect required args */
v1 = vals[0];
v2 = vals[1];
v3 = vals[2];
/* determine rounding mode */
if (count == 4) {
v4 = vals[3];
if (v4->v_type == V_ADDR) {
v4 = v4->v_addr;
}
if (v4->v_type != V_NUM || qisfrac(v4->v_num) ||
qisneg(v4->v_num) || zge31b(v4->v_num->num)) {
return error_value(E_HMS2H2);
}
rnd = qtoi(v4->v_num);
} else {
rnd = conf->quomod;
}
/* type parse args */
if (v1->v_type != V_NUM || v2->v_type != V_NUM ||
v3->v_type != V_NUM) {
return error_value(E_HMS2H1);
}
/*
* compute s/3600
*/
tmp = qdivi(v3->v_num, 3600);
/*
* compute m/60
*/
tmp2 = qdivi(v2->v_num, 60);
/*
* compute m/60 + s/3600
*/
tmp3 = qqadd(tmp2, tmp);
qfree(tmp);
qfree(tmp2);
/*
* compute h + m/60 + s/3600
*/
tmp4 = qqadd(v1->v_num, tmp3);
qfree(tmp3);
/*
* compute mod(h + m/60 + s/3600, 24, rnd);
*/
result.v_type = v1->v_type;
result.v_subtype = v1->v_subtype;
result.v_num = qmod(tmp4, &_qtwentyfour, rnd);
qfree(tmp4);
/*
* return mod(d + m/60 + s/3600, 24, rnd);
*/
return result;
}
S_FUNC VALUE
f_hm2h(int count, VALUE **vals)
{
VALUE *v1, *v2, *v3;
NUMBER *tmp, *tmp2;
VALUE result;
long rnd;
/* collect required args */
v1 = vals[0];
v2 = vals[1];
/* determine rounding mode */
if (count == 3) {
v3 = vals[2];
if (v3->v_type == V_ADDR) {
v3 = v3->v_addr;
}
if (v3->v_type != V_NUM || qisfrac(v3->v_num) ||
qisneg(v3->v_num) || zge31b(v3->v_num->num)) {
return error_value(E_H2HM2);
}
rnd = qtoi(v3->v_num);
} else {
rnd = conf->quomod;
}
/* type parse args */
if (v1->v_type != V_NUM || v2->v_type != V_NUM) {
return error_value(E_H2HM1);
}
/*
* compute m/60
*/
tmp = qdivi(v2->v_num, 60);
/*
* compute d + m/60
*/
tmp2 = qqadd(v1->v_num, tmp);
qfree(tmp);
/*
* compute mod(h + m/60, 24, rnd);
*/
result.v_type = v1->v_type;
result.v_subtype = v1->v_subtype;
result.v_num = qmod(tmp2, &_qtwentyfour, rnd);
qfree(tmp2);
/*
* return mod(h + m/60, 24, rnd);
*/
return result;
}
S_FUNC VALUE S_FUNC VALUE
f_mmin(VALUE *v1, VALUE *v2) f_mmin(VALUE *v1, VALUE *v2)
{ {
@@ -9576,6 +9966,10 @@ STATIC CONST struct builtin builtins[] = {
"number of digits in base b representation of a"}, "number of digits in base b representation of a"},
{"display", 0, 1, 0, OP_NOP, 0, f_display, {"display", 0, 1, 0, OP_NOP, 0, f_display,
"number of decimal digits for displaying numbers"}, "number of decimal digits for displaying numbers"},
{"dm2d", 2, 3, 0, OP_NOP, 0, f_dm2d,
"convert a deg, b min to degrees, rounding type c\n"},
{"dms2d", 3, 4, 0, OP_NOP, 0, f_dms2d,
"convert a deg, b min, c sec to degrees, rounding type d\n"},
{"dp", 2, 2, 0, OP_NOP, 0, f_dp, {"dp", 2, 2, 0, OP_NOP, 0, f_dp,
"dot product of two vectors"}, "dot product of two vectors"},
{"epsilon", 0, 1, 0, OP_SETEPSILON, 0, 0, {"epsilon", 0, 1, 0, OP_SETEPSILON, 0, 0,
@@ -9690,6 +10084,10 @@ STATIC CONST struct builtin builtins[] = {
"Gudermannian function"}, "Gudermannian function"},
{"getenv", 1, 1, 0, OP_NOP, 0, f_getenv, {"getenv", 1, 1, 0, OP_NOP, 0, f_getenv,
"value of environment variable (or NULL)"}, "value of environment variable (or NULL)"},
{"gm2g", 2, 3, 0, OP_NOP, 0, f_gm2g,
"convert a grads, b min to grads, rounding type c\n"},
{"gms2g", 3, 4, 0, OP_NOP, 0, f_gms2g,
"convert a grads, b min, c sec to grads, rounding type d\n"},
{"h2hm", 3, 4, FA, OP_NOP, 0, f_h2hm, {"h2hm", 3, 4, FA, OP_NOP, 0, f_h2hm,
"convert a to b hours, c min, rounding type d\n"}, "convert a to b hours, c min, rounding type d\n"},
{"h2hms", 4, 5, FA, OP_NOP, 0, f_h2hms, {"h2hms", 4, 5, FA, OP_NOP, 0, f_h2hms,
@@ -9701,6 +10099,10 @@ STATIC CONST struct builtin builtins[] = {
"return list of specified number at head of a list"}, "return list of specified number at head of a list"},
{"highbit", 1, 1, 0, OP_HIGHBIT, 0, 0, {"highbit", 1, 1, 0, OP_HIGHBIT, 0, 0,
"high bit number in base 2 representation"}, "high bit number in base 2 representation"},
{"hm2h", 2, 3, 0, OP_NOP, 0, f_hm2h,
"convert a hours, b min to hours, rounding type c\n"},
{"hms2h", 3, 4, 0, OP_NOP, 0, f_hms2h,
"convert a hours, b min, c sec to hours, rounding type d\n"},
{"hmean", 0, IN, 0, OP_NOP, 0, f_hmean, {"hmean", 0, IN, 0, OP_NOP, 0, f_hmean,
"harmonic mean of values"}, "harmonic mean of values"},
{"hnrmod", 4, 4, 0, OP_NOP, f_hnrmod, 0, {"hnrmod", 4, 4, 0, OP_NOP, f_hnrmod, 0,

3
help.c
View File

@@ -83,6 +83,9 @@ STATIC struct help_alias {
{"show", "command"}, {"show", "command"},
{"stdlib", "resource"}, {"stdlib", "resource"},
{"question", "questions"}, {"question", "questions"},
{"dm2d", "dms2d"},
{"gm2g", "gms2g"},
{"hm2d", "hms2d"},
{NULL, NULL} {NULL, NULL}
}; };

12
help/Makefile
View File

@@ -365,17 +365,17 @@ DETAIL_HELP= abs access acos acosh acot acoth acsc acsch address agd \
atanh avg base base2 bernoulli bit blk blkcpy blkfree blocks bround \ atanh avg base base2 bernoulli bit blk blkcpy blkfree blocks bround \
btrunc calc_tty calclevel calcpath catalan ceil cfappr cfsim char \ btrunc calc_tty calclevel calcpath catalan ceil cfappr cfsim char \
cmdbuf cmp comb conj cos cosh cot coth count cp csc csch ctime d2dm \ cmdbuf cmp comb conj cos cosh cot coth count cp csc csch ctime d2dm \
d2dms d2g d2r delete den dereference det digit digits display dp \ d2dms d2g d2r delete den dereference det digit digits display dms2d dp \
epsilon errcount errmax errno error estr euler eval exp fact factor \ epsilon errcount errmax errno error estr euler eval exp fact factor \
fclose fcnt feof ferror fflush fgetc fgetfield fgetfile fgetline fgets \ fclose fcnt feof ferror fflush fgetc fgetfield fgetfile fgetline fgets \
fgetstr fib files floor fopen forall fpathopen fprintf fputc fputs \ fgetstr fib files floor fopen forall fpathopen fprintf fputc fputs \
fputstr frac free freebernoulli freeeuler freeglobals freeredc \ fputstr frac free freebernoulli freeeuler freeglobals freeredc \
freestatics frem freopen fscan fscanf fseek fsize ftell g2d g2gm g2gms \ freestatics frem freopen fscan fscanf fseek fsize ftell g2d g2gm g2gms \
g2r gcd gcdrem gd getenv h2hm h2hms hash head highbit hmean hnrmod \ g2r gcd gcdrem gd getenv gms2g h2hm h2hms hash head highbit hmean \
hypot ilog ilog10 ilog2 im indices inputlevel insert int inverse iroot \ hms2h hnrmod hypot ilog ilog10 ilog2 im indices inputlevel insert int \
isalnum isalpha isassoc isatty isblk iscntrl isconfig isdefined \ inverse iroot isalnum isalpha isassoc isatty isblk iscntrl isconfig \
isdigit iserror iseven isfile isgraph ishash isident isint islist \ isdefined isdigit iserror iseven isfile isgraph ishash isident isint \
islower ismat ismult isnull isnum isobj isobjtype isodd isprime \ islist islower ismat ismult isnull isnum isobj isobjtype isodd isprime \
isprint isptr ispunct isqrt isrand israndom isreal isrel issimple \ isprint isptr ispunct isqrt isrand israndom isreal isrel issimple \
isspace issq isstr istype isupper isxdigit jacobi join lcm lcmfact \ isspace issq isstr istype isupper isxdigit jacobi join lcm lcmfact \
lfactor ln log lowbit ltol makelist matdim matfill matmax matmin \ lfactor ln log lowbit ltol makelist matdim matfill matmax matmin \

2
help/d2dms
View File

@@ -76,7 +76,7 @@ EXAMPLE
; global d, m, s; ; global d, m, s;
; print d2dms(12.3456,d,m,s), d, m, s; ; print d2dms(12.3456,d,m,s), d, m, s;
12.3456, 12, 20, 44.16 12.3456 12 20 44.16
; print d2dms(1234.5678,d,m,s), d, m, s; ; print d2dms(1234.5678,d,m,s), d, m, s;
154.5678 154 34 4.08 154.5678 154 34 4.08
; print d2dms(-1234.5678,d,m,s), d, m, s; ; print d2dms(-1234.5678,d,m,s), d, m, s;

84
help/dms2d Normal file
View File

@@ -0,0 +1,84 @@
NAME
dm2d, dms2d - convert degrees, minutes, and seconds to degrees
SYNOPSIS
dm2d(d, m [,rnd])
dms2d(d, m, s [,rnd])
TYPES
d real
m real
s real (defauls to 0)
rnd nonnegative integer, defaults to config("mod")
return degrees
DESCRIPTION
Convert degrees, m minutes, and s seconds returning degrees.
The return value in degrees, is quivalent to the following:
mod(d + m/60 + s/3600, 360, rnd);
Depending on the rounding mode, the return could be a real value
in the interval [0, 360) or a real value in the interval (-360, 0].
For the default round mode, the return value is in the interval [0, 360).
A missing rnd defaults to config("mod").
For more information on the effects of rnd, see "help mod".
The dm2d(d, m, rnd) builtin is an alias for dms2d(d, m, 0, rnd).
EXAMPLE
; print dm2d(203, 325.5594);
208.42599
; print dm2d(3601, -25.5594);
0.57401
; print dm2d(-923, -25.5594);
156.57401
; print dms2d(12, 20, 44.16);
12.3456
; print dms2d(123.456, -345.68, 4.08);
117.6958
; print dms2d(-65, -40, -44.4);
294.321
; print dm2d(203, 325.5594, 1);
-151.57401
; print dms2d(12, 20, 44.16, 1);
-347.6544
LIMITS
none
LINK LIBRARY
none
SEE ALSO
config, d2dm, d2dms, dm2d, dms2d, g2gm, g2gms, gm2g, gms2g,
h2hm, h2hms, hm2d, hms2d, mod
## Copyright (C) 2021 Landon Curt Noll
##
## Calc is open software; you can redistribute it and/or modify it under
## the terms of the version 2.1 of the GNU Lesser General Public License
## as published by the Free Software Foundation.
##
## Calc 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 Lesser General
## Public License for more details.
##
## A copy of version 2.1 of the GNU Lesser General Public License is
## distributed with calc under the filename COPYING-LGPL. You should have
## received a copy with calc; if not, write to Free Software Foundation, Inc.
## 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
##
## Under source code control: 2021/09/25 17:24:51
## File existed as early as: 2021
##
## chongo <was here> /\oo/\ http://www.isthe.com/chongo/
## Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/

84
help/gms2g Normal file
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@@ -0,0 +1,84 @@
NAME
gm2g, gms2g - convert gradians, minutes, and seconds to gradians
SYNOPSIS
gm2g(d, m [,rnd])
gms2g(d, m, s [,rnd])
TYPES
d real
m real
s real (defauls to 0)
rnd nonnegative integer, defaults to config("mod")
return gradians
DESCRIPTION
Convert gradians, m minutes, and s seconds returning gradians.
The return value in gradians, is quivalent to the following:
mod(d + m/60 + s/4000, 400, rnd);
Depending on the rounding mode, the return could be a real value
in the interval [0, 400) or a real value in the interval (-400, 0].
For the default round mode, the return value is in the interval [0, 400).
A missing rnd defaults to config("mod").
For more information on the effects of rnd, see "help mod".
The gm2g(d, m, rnd) builtin is an alias for gms2g(d, m, 0, rnd).
EXAMPLE
; print gm2g(203, 325.5594);
208.42599
; print gm2g(4001, -25.5594);
0.57401
; print gm2g(-923, -25.5594);
276.57401
; print gms2g(12, 20, 44.16);
12.3456
; print gms2g(123.456, -345.68, 4.08);
117.6958
; print gms2g(-65, -40, -44.4);
334.321
; print gm2g(203, 325.5594, 1);
-191.57401
; print gms2g(12, 20, 44.16, 1);
-387.6544
LIMITS
none
LINK LIBRARY
none
SEE ALSO
config, d2dm, d2dms, dm2d, dms2d, g2gm, g2gms, gm2g, gms2g,
h2hm, h2hms, hm2d, hms2d, mod
## Copyright (C) 2021 Landon Curt Noll
##
## Calc is open software; you can redistribute it and/or modify it under
## the terms of the version 2.1 of the GNU Lesser General Public License
## as published by the Free Software Foundation.
##
## Calc 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 Lesser General
## Public License for more details.
##
## A copy of version 2.1 of the GNU Lesser General Public License is
## distributed with calc under the filename COPYING-LGPL. You should have
## received a copy with calc; if not, write to Free Software Foundation, Inc.
## 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
##
## Under source code control: 2021/09/25 17:24:51
## File existed as early as: 2021
##
## chongo <was here> /\oo/\ http://www.isthe.com/chongo/
## Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/

84
help/hms2h Normal file
View File

@@ -0,0 +1,84 @@
NAME
hm2h, hms2h - convert hours, minutes, and seconds to hours
SYNOPSIS
hm2h(h, m [,rnd])
hms2h(h, m, s [,rnd])
TYPES
h real
m real
s real (defauls to 0)
rnd nonnegative integer, defaults to config("mod")
return hours
DESCRIPTION
Convert hours, m minutes, and s seconds returning hours.
The return value in hours, is quivalent to the following:
mod(h + m/60 + s/3600, 24, rnd);
Depending on the rounding mode, the return could be a real value
in the interval [0, 24) or a real value in the interval (-24, 0].
For the default round mode, the return value is in the interval [0, 24).
A missing rnd defaults to config("mod").
For more information on the effects of rnd, see "help mod".
The hm2h(h, m, rnd) builtin is an alias for hms2h(h, m, 0, rnd).
EXAMPLE
; print hm2h(203, 325.5594);
16.42599
; print hm2h(241, -25.5594);
0.57401
; print hm2h(-923, -25.5594);
12.57401
; print hms2h(12, 20, 44.16);
12.3456
; print hms2h(123.456, -345.68, 4.08);
21.6958
; print hms2h(-65, -40, -44.4);
6.321
; print hm2h(203, 325.5594, 1);
-7.57401
; print hms2h(12, 20, 44.16, 1);
-11.6544
LIMITS
none
LINK LIBRARY
none
SEE ALSO
config, d2dm, d2dms, dm2d, dms2d, g2gm, g2gms, gm2g, gms2g,
h2hm, h2hms, hm2d, hms2d, mod
## Copyright (C) 2021 Landon Curt Noll
##
## Calc is open software; you can redistribute it and/or modify it under
## the terms of the version 2.1 of the GNU Lesser General Public License
## as published by the Free Software Foundation.
##
## Calc 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 Lesser General
## Public License for more details.
##
## A copy of version 2.1 of the GNU Lesser General Public License is
## distributed with calc under the filename COPYING-LGPL. You should have
## received a copy with calc; if not, write to Free Software Foundation, Inc.
## 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
##
## Under source code control: 2021/09/25 17:24:51
## File existed as early as: 2021
##
## chongo <was here> /\oo/\ http://www.isthe.com/chongo/
## Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/