Commit 03dd3ab1 authored by Jonathan Wilkes's avatar Jonathan Wilkes
Browse files

use individual help patches for higher math objects ([cos], [sin], etc.) and...

use individual help patches for higher math objects ([cos], [sin], etc.) and cross-reference with math-help.pd
parent 53e73951
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......@@ -21,13 +21,13 @@ for Pd version 0.42.;
#X text 12 95 OUTLET_0 float;
#X text 12 175 RELEASE_DATE 1997;
#X restore 500 392 pd META;
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......@@ -45,25 +45,31 @@ for Pd version 0.42.;
#X text 7 1 [abs] Related Objects;
#X obj 208 42 log;
#X restore 214 391 pd Related_objects;
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#X floatatom 239 152 0 0 0 0 - - -;
#X floatatom 239 95 0 0 0 0 - - -;
#X text 112 175 [abs] will output the absolute value of a number.;
#X obj 239 125 abs;
#X floatatom 239 132 0 0 0 0 - - -;
#X floatatom 239 75 0 0 0 0 - - -;
#X text 112 155 [abs] will output the absolute value of a number.;
#X obj 239 105 abs;
#X obj 519 9 abs;
#X text 11 24 absolute value;
#X text 168 273 - a list will be truncated \, and the first element
#X text 168 223 - a list will be truncated \, and the first element
will be used as input.;
#X text 168 312 - the absolute value of the number given at the inlet.
#X text 168 262 - the absolute value of the number given at the inlet.
;
#X text 98 253 float;
#X text 168 253 - the incoming value.;
#X text 98 203 float;
#X text 168 203 - the incoming value.;
#X obj 4 392 pddp/pddplink all_about_help_patches.pd -text Usage Guide
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#X text 218 326 - binary arithmetic operators;
#X obj 99 326 pddp/pddplink operators-help.pd;
#X text 218 346 - relational and logical operators;
#X obj 99 346 pddp/pddplink otherbinops-help.pd;
#X obj 99 366 pddp/pddplink math-help.pd;
#X text 218 366 - higher math objects;
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......@@ -21,13 +21,13 @@ Pd version 0.42.;
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#X text 12 165 RELEASE_DATE 2009;
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......@@ -45,12 +45,12 @@ Pd version 0.42.;
#X obj 76 43 tan;
#X text 8 2 [atan] Related Objects;
#X restore 102 598 pd Related_objects;
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#X obj 511 10 atan;
#X floatatom 247 209 0 0 0 0 - - -;
......@@ -59,9 +59,15 @@ Pd version 0.42.;
#X text 96 122 The [atan] object produces the arctangent of a number
as a numeric value between -Pi/2 and Pi/2.;
#X text 11 23 arctangent function;
#X text 168 464 - a list will be truncated \, and the first element
#X text 168 409 - a list will be truncated \, and the first element
will be used as input.;
#X obj 3 597 pddp/pddplink all_about_help_patches.pd -text Usage Guide
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#X text 218 528 - binary arithmetic operators;
#X obj 99 528 pddp/pddplink operators-help.pd;
#X text 218 548 - relational and logical operators;
#X obj 99 548 pddp/pddplink otherbinops-help.pd;
#X obj 99 568 pddp/pddplink math-help.pd;
#X text 218 568 - higher math objects;
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#X obj 109 43 atan;
#X text 8 2 [atan2] Related Objects;
#X restore 101 598 pd Related_objects;
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#X obj 506 12 atan2;
#X text 92 97 The [atan2] object produces the arctangent of the quotient
......@@ -102,20 +102,26 @@ to the left inlet.;
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#X restore 101 566 pd atan2_vs_atan;
#X restore 101 496 pd atan2_vs_atan;
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#X text 168 413 - Y coordinate;
#X text 168 463 - X coordinate;
#X text 168 433 - a list will be distributed between the two inlets
#X text 98 393 float;
#X text 168 343 - Y coordinate;
#X text 168 393 - X coordinate;
#X text 168 363 - a list will be distributed between the two inlets
of [atan2].;
#X obj 4 597 pddp/pddplink all_about_help_patches.pd -text Usage Guide
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#X text 217 522 - binary arithmetic operators;
#X obj 98 522 pddp/pddplink operators-help.pd;
#X text 217 542 - relational and logical operators;
#X obj 98 542 pddp/pddplink otherbinops-help.pd;
#X obj 98 562 pddp/pddplink math-help.pd;
#X text 217 562 - higher math objects;
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......@@ -21,13 +21,13 @@ for Pd version 0.42.;
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#X text 12 165 RELEASE_DATE 1997;
#X restore 500 597 pd META;
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......@@ -45,41 +45,47 @@ for Pd version 0.42.;
#X obj 22 42 sin;
#X text 7 1 [cos] Related Objects;
#X restore 102 598 pd Related_objects;
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#X obj 210 156 sin;
#X floatatom 87 111 0 0 0 0 - - -;
#X floatatom 210 190 0 0 0 0 - - -;
#X obj 87 151 * 6.28319;
#X obj 87 131 / 360;
#X obj 303 157 cos;
#X obj 396 156 tan;
#X text 150 151 2 x Pi;
#X floatatom 87 171 0 0 0 0 - - -;
#X text 150 171 Radian;
#X obj 87 191 s radians;
#X obj 210 130 r radians;
#X text 84 228 Trigonometry functions take input in Radians. To find
#X floatatom 396 170 0 0 0 0 - - -;
#X floatatom 303 171 0 0 0 0 - - -;
#X obj 210 136 sin;
#X floatatom 87 91 0 0 0 0 - - -;
#X floatatom 210 170 0 0 0 0 - - -;
#X obj 87 131 * 6.28319;
#X obj 87 111 / 360;
#X obj 303 137 cos;
#X obj 396 136 tan;
#X text 150 131 2 x Pi;
#X floatatom 87 151 0 0 0 0 - - -;
#X text 150 151 Radian;
#X obj 87 171 s radians;
#X obj 210 110 r radians;
#X text 84 208 Trigonometry functions take input in Radians. To find
a radian \, simply divide a number by 360 (to make it a fraction of
a circle) and multiply it by 2(Pi) where Pi is equal to approximately
3.14159265.;
#X text 83 333 [tan] will produce a number which represents the tangent
#X text 83 313 [tan] will produce a number which represents the tangent
of an angle.;
#X text 83 289 [sin] and [cos] will return numbers between -1 and 1:
#X text 83 269 [sin] and [cos] will return numbers between -1 and 1:
the sine and cosine of a number repectively.;
#X obj 519 11 cos;
#X text 11 23 cosine function;
#X text 168 467 - a list will be truncated \, and the first element
#X text 168 417 - a list will be truncated \, and the first element
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#X text 218 530 - binary arithmetic operators;
#X obj 99 530 pddp/pddplink operators-help.pd;
#X text 218 550 - relational and logical operators;
#X obj 99 550 pddp/pddplink otherbinops-help.pd;
#X obj 99 570 pddp/pddplink math-help.pd;
#X text 218 570 - higher math objects;
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......
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......@@ -20,13 +20,13 @@ for Pd version 0.42.;
#X text 12 85 OUTLET_0 float;
#X text 12 45 DESCRIPTION raise e to the nth power;
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#X text 7 1 [exp] Related Objects;
#X obj 143 42 atan2;
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......@@ -59,10 +59,16 @@ for Pd version 0.42.;
#X text 104 252 where E is Euler's constant and n is the value of the
inlet.;
#X text 11 23 raise e to the nth power;
#X text 168 465 - a list will be truncated \, and the first element
#X text 168 415 - a list will be truncated \, and the first element
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#X text 98 465 list;
#X text 98 415 list;
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#X text 219 529 - binary arithmetic operators;
#X obj 100 529 pddp/pddplink operators-help.pd;
#X text 219 549 - relational and logical operators;
#X obj 100 549 pddp/pddplink otherbinops-help.pd;
#X obj 100 569 pddp/pddplink math-help.pd;
#X text 219 569 - higher math objects;
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......@@ -60,9 +60,15 @@ infinity".;
#X obj 239 190 log;
#X obj 515 9 log;
#X text 11 23 natural logarithm of a number;
#X text 168 467 - a list will be truncated \, and the first element
#X text 168 417 - a list will be truncated \, and the first element
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#X obj 98 548 pddp/pddplink otherbinops-help.pd;
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#X text 217 568 - higher math objects;
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......@@ -19,11 +19,11 @@ Pd. Revised by Jonathan Wilkes to conform to the PDDP template.;
#X text 12 145 RELEASE_DATE 1997;
#X text 12 25 KEYWORDS control trigonometry;
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......@@ -37,12 +37,12 @@ Pd. Revised by Jonathan Wilkes to conform to the PDDP template.;
#X obj 210 42 sqrt~;
#X obj 254 42 pow~;
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#X text 11 23 higher math in Pd;
#X obj 249 12 sin;
......@@ -55,46 +55,78 @@ Pd. Revised by Jonathan Wilkes to conform to the PDDP template.;
#X obj 456 12 abs;
#X obj 484 12 sqrt;
#X obj 519 12 pow;
#X text 123 139 For individual help patches \, follow the links below:
;
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#X text 168 333 - the incoming value;
#X text 168 352 - a list will be truncated.;
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#X obj 124 201 cos;
#X obj 124 231 tan;
#X obj 124 261 atan;
#X obj 124 291 atan2;
#X obj 314 171 exp;
#X obj 314 201 log;
#X obj 314 231 abs;
#X obj 314 261 sqrt;
#X obj 314 291 pow;
#X obj 169 171 pddp/pddplink sin-help.pd;
#X obj 169 201 pddp/pddplink cos-help.pd;
#X obj 169 231 pddp/pddplink tan-help.pd;
#X obj 169 261 pddp/pddplink atan-help.pd;
#X obj 169 291 pddp/pddplink atan2-help.pd;
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#X obj 359 261 pddp/pddplink sqrt-help.pd;
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#X text 168 456 - the outgoing value.;
#X text 98 488 The [pow] object accepts one float argument to initialize
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#X text 168 323 - the incoming value;
#X text 168 342 - a list will be truncated.;
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#X text 98 478 The [pow] object accepts one float argument to initialize
the right inlet. All other math functions listed here take no arguments.
;
#X text 217 551 - binary arithmetic operators;
#X obj 98 551 pddp/pddplink operators-help.pd;
#X text 217 571 - relational and logical operators;
#X obj 98 571 pddp/pddplink otherbinops-help.pd;
#X text 98 369 (The [pow] object takes a bang \, which will output
#X text 217 541 - binary arithmetic operators;
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#X text 217 561 - relational and logical operators;
#X obj 98 561 pddp/pddplink otherbinops-help.pd;
#X text 98 359 (The [pow] object takes a bang \, which will output
the previous value.);
#X text 97 403 (Note: The [atan2] and [pow] objects have a right inlet.
#X text 97 393 (Note: The [atan2] and [pow] objects have a right inlet.
See their respective help patches (links above) for more info.);
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#X text 12 125 LIBRARY internal;
......@@ -22,11 +22,11 @@ for Pd version 0.42.;
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#X text 12 185 RELEASE_DATE 1997;
#X restore 500 597 pd META;
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......@@ -45,12 +45,12 @@ for Pd version 0.42.;
#X text 8 2 [pow] Related Objects;
#X obj 266 43 sqrt;
#X restore 102 597 pd Related_objects;
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......@@ -58,16 +58,16 @@ for Pd version 0.42.;
#X text 103 221 [pow] is used to exponentiate a number. 2 to the power
of 2 = 4 . The right inlet or creation argument is the exponent while
the left inlet is the base.;
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