This is usually called Goto Removal, we had just once a student work where the task was to implement it for C. In general you have to work with loops (sadly we did not put that work online). But as you have the restriction that you can only jump forward it is relatively easy:
Parse once over all lines and collect all labels. Create for every label a flag "skip_to_label". Initialize at beginning all flags to false. When you meet the conditional goto for label X you now prepend every single line , up to the label line with "if not skip_to_label" and set the flag to true.
This should be already enough and work, but is of course not very optimal.
How you can optimize it: Instead of prepanding the if, just maintain a set of flags for every line, and instead of setting something to false, just add for the lines the corrosponding flag in the set.
Now you can make the if for a group that contains all lines, where the set does not change, and the condition are the boolean flags of the set.
Example with your given code:
set your code
empty if cond1 goto a
skip_to_a, do something1
skip_to_a, if cond2 goto b
skip_to_a, skip_to_b do something2
skip_to_a, skip_to_b a:
skip_to_b do something3
skip_to_b, skip_to_c if cond3 goto c
skip_to_b, skip_to_c do something4
skip_to_b, skip_to_c c:
skip_to_b do something5
Now you write in front of each line either the if(s) or you start at the top and make an if block as long as the set remains the same.
So when you start you get your first at empty, its a conditional goto so instead you set your flag
if cond1 goto skip_to_a=true;
now the set changes, and you introduce your block with the if of the set:
if (!skip_to_a) BEGIN
if cond2 skip_to_b=true;
next change in set, so new if block:
if (!skip_to_a and !skip_to_b) BEGIN
and so on (I guess you get now the idea).
EDIT: As one can nicely see with the sets in the example it is in general not possible to model it with nested ifs, as e.g. the lines with skip_to_a and the ones with skip_to_b overlap, but neither contains the other complete.