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[rbdr/dotfiles] / vim / autoload / Pl / Colorscheme.vim
1 function! Pl#Colorscheme#Init(hi) " {{{
2 let colorscheme = {}
3
4 for hi in a:hi
5 " Ensure that the segments are a list
6 let segments = type(hi[0]) == type('') ? [ hi[0] ] : hi[0]
7 let mode_hi_dict = hi[1]
8
9 for segment in segments
10 let colorscheme[segment] = mode_hi_dict
11 endfor
12 endfor
13
14 return colorscheme
15 endfunction " }}}
16 function! Pl#Colorscheme#Apply(colorscheme, buffer_segments) " {{{
17 " Set color parameters for all segments in a:buffer_segments
18
19 " TODO This function should be recursive and work on both segments and groups
20 " TODO We could probably handle the NS stuff here...
21
22 try
23 let colorscheme = g:Powerline#Colorschemes#{a:colorscheme}#colorscheme
24 catch
25 echom 'Color scheme "'. a:colorscheme .'" doesn''t exist!'
26
27 return
28 endtry
29
30 let buffer_segments = a:buffer_segments
31
32 " This is a bit complex, I'll walk you through exactly what happens here...
33 "
34 " First of all we loop through the buffer_segments, which are the segments that
35 " this specific buffer will have.
36 for buffer_segment in buffer_segments
37 " The buffer_segment consists of a 'matches' list and a 'segments' list.
38 " The 'matches' list has conditions to limit this statusline to specific buffers/windows.
39 " The 'segments' list has each segment and segment group for this buffer
40 for segment in buffer_segment.segments
41 let type = get(segment, 'type', '')
42
43 if type == 'segment_group'
44 " We're going to handle segment groups different from single segments. Segment groups
45 " have child segments which may have their own highlighting (e.g. fileinfo.flags),
46 " and these child segments may be grouped (e.g. fileinfo.flags.ro) to provide very
47 " specific highlighting. So here we'll handle all that:
48
49 " Set the default/fallback colors for this group
50 for i in range(len(segment.variants), 0, -1)
51 " Check for available highlighting for the main group segment
52 "
53 " This works like the segment highlighting below
54 " TODO Create a function for this
55 let seg_variants = join(segment.variants[0:i], '.')
56
57 let seg_name = i > 0 ? segment.name .'.'. seg_variants : segment.name
58 let seg_ns_name = len(segment.ns) > 0 ? segment.ns .':'. seg_name : seg_name
59
60 if has_key(colorscheme, seg_ns_name)
61 " We have a namespaced highlight group
62 let segment.colors = colorscheme[seg_ns_name]
63 break
64 elseif has_key(colorscheme, seg_name)
65 " We have a non-namespaced group
66 let segment.colors = colorscheme[seg_name]
67 break
68 endif
69 endfor
70
71 " The reason why we need to deepcopy the group's segments is that the child segments
72 " all point to the same base segments and that screws up highlighting if we highlight
73 " some child segments with different namespaced colors
74 let segment.segments = deepcopy(segment.segments)
75
76 " Apply colors to each child segment
77 for child_segment in segment.segments
78 " Check if this child segment is grouped (e.g. fileinfo.flags.group.subgroup)
79 " We're going to prioritize the most specific grouping and then work back to the
80 " most common group (e.g. fileinfo.flags)
81
82 " FIXME We don't have the variants from before because group children aren't run through Pl#Segment#Get
83 let child_segment.variants = [seg_name] + split(child_segment.name, '\.')
84
85 " Use the parent group's namespace
86 let child_segment.ns = segment.ns
87
88 for i in range(len(child_segment.variants), 0, -1)
89 " Check for available highlighting for the main group segment
90 let child_seg_name = join(child_segment.variants[0:i], '.')
91
92 let child_seg_ns_name = len(child_segment.ns) > 0 ? child_segment.ns .':'. child_seg_name : child_seg_name
93
94 if has_key(colorscheme, child_seg_ns_name)
95 " We have a namespaced highlight group
96 let child_segment.colors = colorscheme[child_seg_ns_name]
97 break
98 elseif has_key(colorscheme, child_seg_name)
99 " We have a non-namespaced group
100 let child_segment.colors = colorscheme[child_seg_name]
101 break
102 endif
103 endfor
104 endfor
105 elseif type == 'segment'
106 for i in range(len(segment.variants), 0, -1)
107 " Check for available highlighting
108 "
109 " This is done in the following manner, using the segment gundo:static_filename.text.buffer as an example:
110 "
111 " * Look for the hl group: gundo:static_filename.text.buffer
112 " * Look for the hl group: static_filename.text.buffer
113 " * Look for the hl group: gundo:static_filename.text
114 " * Look for the hl group: static_filename.text
115 " * Look for the hl group: gundo:static_filename
116 " * Look for the hl group: static_filename
117 " * Return the segment without highlighting, causing an error in the parser
118 let seg_variants = join(segment.variants[0:i], '.')
119
120 let seg_name = i > 0 ? segment.name .'.'. seg_variants : segment.name
121 let seg_ns_name = len(segment.ns) > 0 ? segment.ns .':'. seg_name : seg_name
122
123 if has_key(colorscheme, seg_ns_name)
124 " We have a namespaced highlight group
125 let segment.colors = colorscheme[seg_ns_name]
126 break
127 elseif has_key(colorscheme, seg_name)
128 " We have a non-namespaced group
129 let segment.colors = colorscheme[seg_name]
130 break
131 endif
132 endfor
133 endif
134
135 unlet! segment
136 endfor
137 endfor
138
139 " Good luck parsing this return value
140 "
141 " It's a huge dict with all segments for all buffers with their respective syntax highlighting.
142 " It will be parsed by the main Powerline code, where all the data will be shortened to a simple
143 " array consiting of a statusline for each mode, with generated highlighting groups and dividers.
144 return buffer_segments
145 endfunction " }}}
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