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

// Display a reconciled tree form recPhyloXML format

use light_phylogeny::{ArenaTree,Options,Config,read_recphyloxml_multi,recphyloxml_processing};
// use std::env;

fn main() {

    // ============================================================================================
    // Version portrait
    let transfers = vec![];
    let mut options: Options = Options::new();
    let config: Config = Config::new();
    let mut sp_tree: ArenaTree<String> = ArenaTree::default();
    let mut gene_trees:std::vec::Vec<ArenaTree<String>> = Vec::new();
    let mut global_roots: std::vec::Vec<usize> = Vec::new();
    read_recphyloxml_multi("examples/FAM000696_reconciliated.recphylo".to_string(),
        &mut sp_tree, &mut gene_trees, &mut global_roots);
    recphyloxml_processing(&mut sp_tree, &mut gene_trees, &mut options, &config, true,
         &transfers, "read_recphyloxml_portrait.svg".to_string());
    println!("Please open output file 'read_recphyloxml_portrait.svg' with your browser");


    // ============================================================================================
    // Version portrait
    let transfers = vec![];
    let mut options: Options = Options::new();
    options.mid_dist = true;
    let config: Config = Config::new();
    let mut sp_tree: ArenaTree<String> = ArenaTree::default();
    let mut gene_trees:std::vec::Vec<ArenaTree<String>> = Vec::new();
    let mut global_roots: std::vec::Vec<usize> = Vec::new();
    read_recphyloxml_multi("examples/FAM000696_reconciliated.recphylo".to_string(),
        &mut sp_tree, &mut gene_trees, &mut global_roots);
    recphyloxml_processing(&mut sp_tree, &mut gene_trees, &mut options, &config, true,
         &transfers, "read_recphyloxml_portrait_mid_dist.svg".to_string());
    println!("Please open output file 'read_recphyloxml_portrait_mid_dist.svg' with your browser");



    // ============================================================================================
    // Version portrait
    let transfers = vec![];
    let mut options: Options = Options::new();
    let config: Config = Config::new();
    let mut sp_tree: ArenaTree<String> = ArenaTree::default();
    let mut gene_trees:std::vec::Vec<ArenaTree<String>> = Vec::new();
    let mut global_roots: std::vec::Vec<usize> = Vec::new();
    read_recphyloxml_multi("examples/FAM000297_reconciliated.recphylo".to_string(),
        &mut sp_tree, &mut gene_trees, &mut global_roots);
    recphyloxml_processing(&mut sp_tree, &mut gene_trees, &mut options, &config, true,
         &transfers, "read_recphyloxml_portrait_2.svg".to_string());
    println!("Please open output file 'read_recphyloxml_portrait_2.svg' with your browser");


    // ============================================================================================
    // Version portrait
    let transfers = vec![];
    let mut options: Options = Options::new();
    options.mid_dist = true;
    let config: Config = Config::new();
    let mut sp_tree: ArenaTree<String> = ArenaTree::default();
    let mut gene_trees:std::vec::Vec<ArenaTree<String>> = Vec::new();
    let mut global_roots: std::vec::Vec<usize> = Vec::new();
    read_recphyloxml_multi("examples/FAM000297_reconciliated.recphylo".to_string(),
        &mut sp_tree, &mut gene_trees, &mut global_roots);
    recphyloxml_processing(&mut sp_tree, &mut gene_trees, &mut options, &config, true,
         &transfers, "read_recphyloxml_portrait_2_mid_dist.svg".to_string());
    println!("Please open output file 'read_recphyloxml_portrait_2_mid_dist.svg' with your browser");
}