1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
|
-- helpers for selecting portions of text
-- Return any intersection of the region from State.selection1 to State.cursor1 (or
-- current mouse, if mouse is pressed; or recent mouse if mouse is pressed and
-- currently over a drawing) with the region between {line=line_index, pos=apos}
-- and {line=line_index, pos=bpos}.
-- apos must be less than bpos. However State.selection1 and State.cursor1 can be in any order.
-- Result: positions spos,epos between apos,bpos.
function Text.clip_selection(State, line_index, apos, bpos)
if State.selection1.line == nil then return nil,nil end
-- min,max = sorted(State.selection1,State.cursor1)
local minl,minp = State.selection1.line,State.selection1.pos
local maxl,maxp
if State.mouse_down then
maxl,maxp = Text.mouse_pos(State)
else
maxl,maxp = State.cursor1.line,State.cursor1.pos
end
if Text.lt1({line=maxl, pos=maxp},
{line=minl, pos=minp}) then
minl,maxl = maxl,minl
minp,maxp = maxp,minp
end
-- check if intervals are disjoint
if line_index < minl then return nil,nil end
if line_index > maxl then return nil,nil end
if line_index == minl and bpos <= minp then return nil,nil end
if line_index == maxl and apos >= maxp then return nil,nil end
-- compare bounds more carefully (start inclusive, end exclusive)
local a_ge = Text.le1({line=minl, pos=minp}, {line=line_index, pos=apos})
local b_lt = Text.lt1({line=line_index, pos=bpos}, {line=maxl, pos=maxp})
if a_ge and b_lt then
-- fully contained
return apos,bpos
elseif a_ge then
assert(maxl == line_index, ('maxl %d not equal to line_index %d'):format(maxl, line_index))
return apos,maxp
elseif b_lt then
assert(minl == line_index, ('minl %d not equal to line_index %d'):format(minl, line_index))
return minp,bpos
else
assert(minl == maxl and minl == line_index, ('minl %d, maxl %d and line_index %d are not all equal'):format(minl, maxl, line_index))
return minp,maxp
end
end
-- draw highlight for line corresponding to (lo,hi) given an approximate x,y and pos on the same screen line
-- Creates text objects every time, so use this sparingly.
-- Returns some intermediate computation useful elsewhere.
function Text.draw_highlight(State, line, x,y, pos, lo,hi)
if lo then
local lo_offset = Text.offset(line.data, lo)
local hi_offset = Text.offset(line.data, hi)
local pos_offset = Text.offset(line.data, pos)
local lo_px
if pos == lo then
lo_px = 0
else
local before = line.data:sub(pos_offset, lo_offset-1)
lo_px = State.font:getWidth(before)
end
local s = line.data:sub(lo_offset, hi_offset-1)
App.color(Highlight_color)
love.graphics.rectangle('fill', x+lo_px,y, State.font:getWidth(s),State.line_height)
App.color(Text_color)
return lo_px
end
end
function Text.mouse_pos(State)
local x,y = App.mouse_x(), App.mouse_y()
if y < State.line_cache[State.screen_top1.line].starty then
return State.screen_top1.line, State.screen_top1.pos
end
for line_index,line in ipairs(State.lines) do
if Text.in_line(State, line_index, x,y) then
return line_index, Text.to_pos_on_line(State, line_index, x,y)
end
end
return State.screen_bottom1.line, Text.pos_at_end_of_screen_line(State, State.screen_bottom1)
end
function Text.selection(State)
if State.selection1.line == nil then return end
-- min,max = sorted(State.selection1,State.cursor1)
local minl,minp = State.selection1.line,State.selection1.pos
local maxl,maxp = State.cursor1.line,State.cursor1.pos
if minl > maxl then
minl,maxl = maxl,minl
minp,maxp = maxp,minp
elseif minl == maxl then
if minp > maxp then
minp,maxp = maxp,minp
end
end
local min_offset = Text.offset(State.lines[minl].data, minp)
local max_offset = Text.offset(State.lines[maxl].data, maxp)
if minl == maxl then
return State.lines[minl].data:sub(min_offset, max_offset-1)
end
assert(minl < maxl, ('minl %d not < maxl %d'):format(minl, maxl))
local result = {State.lines[minl].data:sub(min_offset)}
for i=minl+1,maxl-1 do
table.insert(result, State.lines[i].data)
end
table.insert(result, State.lines[maxl].data:sub(1, max_offset-1))
return table.concat(result, '\n')
end
|