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Is flex/bison suitable for parsing a data structure containing N vertices composed of three floats representing x,y,z coordinates when N is known in advance? If so, what would the parser/lexer setup look like?

Desired structure to fill (will create an array of these)

struct Vertex
   float x;
   float y;
   float z;

Input Text

Vertices: n
  x1 y1 z1
  x2 y2 z2
  xN yN zN

What I assume to be true (new at flex/bison so probably wrong)

Tokens defined in parser definition

%token COLON
%token NUM

Lexer rules

Vertices { return VERTICES_IDENTIFIER;}
:        { return COLON; }
[0-9]+   |
[0-9]+"."[0-9]* {return NUM;}
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2 Answers 2

up vote 1 down vote accepted

Your parser rules would go something like this, adapting from @xtof pernaud. The list of definitions is defined recursively.

int num_vertices;
int idx;

program : count_definition vertex_definitions { /* check that the number of vertices 
                                                   stored = num_vertices */ 

count_definition : VERTICES_IDENTIFIER COLON NUM { num_vertices = $3; idx = 0; 
                                                   /* allocate data structure */ 

vertex_definitions : vertex_definitions vertex_definition
                   | vertex_definition

vertex_definition : NUM NUM NUM { /* check that idx does not exceed num_vertices */
                                  store_vertex(idx++, $1, $2, $3); 

When I first read the question, I thought that the number of dimensions (3) was variable, as well as the number (N) of points (vertices). If you find that you need to extend your tool to a variable number of dimensions, you may find it useful to introduce a separator (like a semicolon) between each list of floats for the vertices you are defining.

Depending on your needs, you might find that you can use a data structure that grows dynamically with each store_vertex() call, and then you don't need to declare num_vertices in your input file at all.

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You did not put your grammar file; so, I guess something like:

int num_vertices, idx;
file: VERTICES_IDENTIFIER ':' NUM { num_vertices = $3; idx = 0; }
    | NUM NUM NUM             { set_vertice(idx++, $1, $2, $3); }

..and write the function set_vertice(no, x, y, z);

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If I understand the OP correctly, this approach won't work, because the number of vertices is determined at run time, not compile time. So, on the next run, for example, N=4 and we would need a rule that looks like 'file: NUM NUM NUM NUM`. –  David Gorsline Mar 28 '13 at 14:01
I reread the OP, and the number of dimensions (3) does not vary, so this approach is not flawed in that way. Mea culpa. –  David Gorsline Mar 28 '13 at 14:31

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