X-Git-Url: https://git.distorted.org.uk/~mdw/sgt/puzzles/blobdiff_plain/e3478a4b9a25a82709c68977e1551f2e17ae7e23..e28d0584ec76ae4bd34805756b4c18bf174d3460:/puzzles.but

diff --git a/puzzles.but b/puzzles.but
index e11ee67..76521c2 100644
--- a/puzzles.but
+++ b/puzzles.but
@@ -111,6 +111,13 @@ had done before saving).
 
 }
 
+\dt \ii\e{Print}
+
+\dd Where supported (currently only on Windows), brings up a dialog
+allowing you to print an arbitrary number of puzzles randomly
+generated from the current parameters, optionally including the
+current puzzle.
+
 \dt \ii\e{Undo} (\q{U}, Ctrl+\q{Z}, Ctrl+\q{_})
 
 \dd Undoes a single move. (You can undo moves back to the start of the
@@ -295,6 +302,7 @@ than by pasting it into the game ID selection box.
 then some options, such as the difficulty level in Solo, will be
 missing. See \k{common-id} for more details on this.)
 
+
 \C{net} \i{Net}
 
 \cfg{winhelp-topic}{games.net}
@@ -406,6 +414,7 @@ feature and risk having ambiguous puzzles. (Also, finding \e{all}
 the possible solutions can be an additional challenge for an
 advanced player.)
 
+
 \C{cube} \i{Cube}
 
 \cfg{winhelp-topic}{games.cube}
@@ -714,6 +723,7 @@ meanings to those in Net (see \k{net-params}) and Sixteen (see
 
 Netslide was contributed to this collection by Richard Boulton.
 
+
 \C{pattern} \i{Pattern}
 
 \cfg{winhelp-topic}{games.pattern}
@@ -840,16 +850,17 @@ particular, on difficulty levels \q{Trivial} and \q{Basic} there
 will be a square you can fill in with a single number at all times,
 whereas at \q{Intermediate} level and beyond you will have to make
 partial deductions about the \e{set} of squares a number could be in
-(or the set of numbers that could be in a square). At
-\q{Unreasonable} level, even this is not enough, and you will
+(or the set of numbers that could be in a square).
+\#{Advanced, Extreme?}
+At \q{Unreasonable} level, even this is not enough, and you will
 eventually have to make a guess, and then backtrack if it turns out
 to be wrong.
 
-Generating difficult puzzles is itself difficult: if you select
-\q{Intermediate} or \q{Advanced} difficulty, Solo may have to make
-many attempts at generating a puzzle before it finds one hard enough
-for you. Be prepared to wait, especially if you have also configured
-a large puzzle size.
+Generating difficult puzzles is itself difficult: if you select one
+of the higher difficulty levels, Solo may have to make many attempts
+at generating a puzzle before it finds one hard enough for you. Be
+prepared to wait, especially if you have also configured a large
+puzzle size.
 
 
 \C{mines} \i{Mines}
@@ -983,6 +994,8 @@ The cursor keys move a cursor around the grid. Pressing the Space or
 Enter keys while the cursor is in an unselected region selects it;
 pressing Space or Enter again removes it as above.
 
+(All the actions described in \k{common-actions} are also available.)
+
 \H{samegame-parameters} \I{parameters, for Same Game}Same Game parameters
 
 These parameters are available from the \q{Custom...} option on the
@@ -1054,6 +1067,8 @@ mark, the game should be solved. (If you click in a square
 \e{without} a red mark, a red mark will appear in it to indicate
 that you will need to reverse that operation to reach the solution.)
 
+(All the actions described in \k{common-actions} are also available.)
+
 \H{flip-parameters} \I{parameters, for flip}Flip parameters
 
 These parameters are available from the \q{Custom...} option on the
@@ -1125,6 +1140,8 @@ If you correctly position all the pegs the solution will be displayed
 below; if you run out of guesses (or select \q{Solve...}) the solution
 will also be revealed.
 
+(All the actions described in \k{common-actions} are also available.)
+
 \H{guess-parameters} \I{parameters, for Guess}Guess parameters
 
 These parameters are available from the \q{Custom...} option on the
@@ -1169,8 +1186,8 @@ peg by jumping an adjacent peg over it (horizontally or vertically)
 to a vacant hole on the other side. Your aim is to remove all but one
 of the pegs initially present.
 
-This game, best known as \q{Peg Solitaire}, is possibly one of the
-oldest puzzle games still commonly known.
+This game, best known as \I{Solitaire, Peg}\q{Peg Solitaire}, is
+possibly one of the oldest puzzle games still commonly known.
 
 \H{pegs-controls} \i{Pegs controls}
 
@@ -1186,6 +1203,7 @@ Vacant spaces which you can move a peg into are marked with holes. A
 space with no peg and no hole is not available for moving at all: it
 is an obstacle which you must work around.
 
+(All the actions described in \k{common-actions} are also available.)
 
 \H{pegs-parameters} \I{parameters, for Pegs}Pegs parameters
 
@@ -1234,6 +1252,7 @@ them, which you can use to remind yourself that you know those two
 numbers are \e{not} covered by a single domino. Right-clicking again
 removes the line.
 
+(All the actions described in \k{common-actions} are also available.)
 
 \H{dominosa-parameters} \I{parameters, for Dominosa}Dominosa parameters
 
@@ -1277,6 +1296,8 @@ I originally saw this in the form of a Flash game called \i{Planarity}
 To move a point, click on it with the left mouse button and drag it
 into a new position.
 
+(All the actions described in \k{common-actions} are also available.)
+
 \H{untangle-parameters} \I{parameters, for Untangle}Untangle parameters
 
 There is only one parameter available from the \q{Custom...} option
@@ -1454,12 +1475,9 @@ Credit for this puzzle goes to \i{Nikoli} \k{nikoli-slant}.
 \W{http://www.nikoli.co.jp/puzzles/39/index.htm}\cw{http://www.nikoli.co.jp/puzzles/39/index.htm}
 (in Japanese)
 
-
 \H{slant-controls} \i{Slant controls}
 
 \IM{Slant controls} controls, for Slant
-\IM{Slant controls} keys, for Slant
-\IM{Slant controls} shortcuts (keyboard), for Slant
 
 Left-clicking in a blank square will place a \cw{\\} in it (a line
 leaning to the left, i.e. running from the top left of the square to
@@ -1485,6 +1503,17 @@ These parameters are available from the \q{Custom...} option on the
 
 \dd Size of grid in squares.
 
+\dt \e{Difficulty}
+
+\dd Controls the difficulty of the generated puzzle. At Hard level,
+you are required to do deductions based on knowledge of
+\e{relationships} between squares rather than always being able to
+deduce the exact contents of one square at a time. (For example, you
+might know that two squares slant in the same direction, even if you
+don't yet know what that direction is, and this might enable you to
+deduce something about still other squares.) Even at Hard level,
+guesswork and backtracking should never be necessary.
+
 
 \C{lightup} \i{Light Up}
 
@@ -1520,8 +1549,6 @@ Light Up was contributed to this collection by James Harvey.
 \H{lightup-controls} \i{Light Up controls}
 
 \IM{Light Up controls} controls, for Light Up
-\IM{Light Up controls} keys, for Light Up
-\IM{Light Up controls} shortcuts (keyboard), for Light Up
 
 Left-clicking in a non-black square will toggle the presence of a light
 in that square. Right-clicking in a non-black square toggles a mark there to aid
@@ -1536,6 +1563,7 @@ do not (or cannot) have the right number of lights next to them.
 Thus, the grid is solved when all non-black squares have yellow
 highlights and there are no red lights.
 
+(All the actions described in \k{common-actions} are also available.)
 
 \H{lightup-parameters} \I{parameters, for Light Up}Light Up parameters
 
@@ -1571,11 +1599,127 @@ backtracking or guessing, \q{Hard} means that some guesses will
 probably be necessary.
 
 
+\C{map} \i{Map}
+
+\cfg{winhelp-topic}{games.map}
+
+You are given a map consisting of a number of regions. Your task is
+to colour each region with one of four colours, in such a way that
+no two regions sharing a boundary have the same colour. You are
+provided with some regions already coloured, sufficient to make the
+remainder of the solution unique.
+
+Only regions which share a length of border are required to be
+different colours. Two regions which meet at only one \e{point}
+(i.e. are diagonally separated) may be the same colour.
+
+I believe this puzzle is original; I've never seen an implementation
+of it anywhere else. The concept of a four-colouring puzzle was
+suggested by Owen Dunn; credit must also go to Nikoli and to Verity
+Allan for inspiring the train of thought that led to me realising
+Owen's suggestion was a viable puzzle. Thanks also to Gareth Taylor
+for many detailed suggestions.
+
+\H{map-controls} \i{Map controls}
+
+\IM{Map controls} controls, for Map
+
+To colour a region, click on an existing region of the desired
+colour and drag that colour into the new region.
+
+(The program will always ensure the starting puzzle has at least one
+region of each colour, so that this is always possible!)
+
+If you need to clear a region, you can drag from an empty region, or
+from the puzzle boundary if there are no empty regions left.
+
+(All the actions described in \k{common-actions} are also available.)
+
+\H{map-parameters} \I{parameters, for Map}Map parameters
+
+These parameters are available from the \q{Custom...} option on the
+\q{Type} menu.
+
+\dt \e{Width}, \e{Height}
+
+\dd Size of grid in squares.
+
+\dt \e{Regions}
+
+\dd Number of regions in the generated map.
+
+\dt \e{Difficulty}
+
+\dd In \q{Easy} mode, there should always be at least one region
+whose colour can be determined trivially. In \q{Normal} mode, you
+will have to use more complex logic to deduce the colour of some
+regions. However, it will always be possible without having to
+guess or backtrack.
+
+
+\C{loopy} \i{Loopy}
+
+\cfg{winhelp-topic}{games.loopy}
+
+You are given a grid of dots. Your aim is to draw a single unbroken
+loop from dot to dot within the grid.
+
+Some of the square spaces between the dots contain numbers. These
+numbers indicate how many of the four edges of that square are part
+of the loop. The loop you draw must correctly satisfy all of these
+clues to be considered a correct solution.
+
+Credit for this puzzle goes to \i{Nikoli} \k{nikoli-loopy}.
+
+Loopy was contributed to this collection by Mike Pinna.
+
+\B{nikoli-loopy}
+\W{http://www.nikoli.co.jp/puzzles/3/index-e.htm}\cw{http://www.nikoli.co.jp/puzzles/3/index-e.htm}
+(beware of Flash)
+
+\H{loopy-controls} \i{Loopy controls}
+
+\IM{Loopy controls} controls, for Loopy
+
+Click the left mouse button between two dots to add a line segment
+connecting them. Click again to remove that line segment.
+
+If you are sure that a particular line segment is \e{not} part of
+the loop, you can click the right mouse button to add a small cross
+indicating this. Click again to remove the cross.
+
+(All the actions described in \k{common-actions} are also available.)
+
+\H{loopy-parameters} \I{parameters, for Loopy}Loopy parameters
+
+These parameters are available from the \q{Custom...} option on the
+\q{Type} menu.
+
+\dt \e{Width}, \e{Height}
+
+\dd Size of grid in squares.
+
+\dt \e{Recursion depth}
+
+\dd Determines how much guesswork and backtracking you will need to
+do to solve the puzzle. When this is set to zero (as it is for all
+of the \q{Easy} options in the menu), you should always be able to
+deduce the state of an edge without having to guess. If you increase
+it, you will have to guess more and more.
+
+\lcont{
+
+Setting a high value for this option is liable to consume a lot of
+CPU time and memory. Be warned!
+
+}
+
+
 \A{licence} \I{MIT licence}\ii{Licence}
 
 This software is \i{copyright} 2004-2005 Simon Tatham.
 
-Portions copyright Richard Boulton and James Harvey.
+Portions copyright Richard Boulton, James Harvey and Mike Pinna.
 
 Permission is hereby granted, free of charge, to any person
 obtaining a copy of this software and associated documentation files