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processing4/agg/agg_vcgen_contour.java
benfry e9f9df89bc contour work
2006-04-08 02:18:36 +00:00

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//----------------------------------------------------------------------------
// Anti-Grain Geometry - Version 2.3
// Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
//
// Permission to copy, use, modify, sell and distribute this software
// is granted provided this copyright notice appears in all copies.
// This software is provided "as is" without express or implied
// warranty, and with no claim as to its suitability for any purpose.
//
//----------------------------------------------------------------------------
// Contact: mcseem@antigrain.com
// mcseemagg@yahoo.com
// http://www.antigrain.com
//----------------------------------------------------------------------------
//
// Contour generator
//
//----------------------------------------------------------------------------
package agg;
public class agg_vcgen_contour {
// enum status_e // arbitrary values
static final int initial = 1;
static final int ready = 2;
static final int outline = 3;
static final int out_vertices = 4;
static final int end_poly = 5;
static final int stop = 6;
//typedef vertex_sequence<vertex_dist, 6> vertex_storage;
//typedef pod_deque<point_type, 6> coord_storage;
public void line_join(line_join_e lj) {
m_line_join = lj;
}
public void inner_join(inner_join_e ij) {
m_inner_join = ij;
}
public void width(float w) {
m_width = w * 0.5f;
}
public void miter_limit(float ml) {
m_miter_limit = ml;
}
public void miter_limit_theta(float t) {
m_miter_limit = 1.0f / (float)Math.sin(t * 0.5f) ;
}
public void inner_miter_limit(float ml) {
m_inner_miter_limit = ml;
}
public void approximation_scale(float as) {
m_approx_scale = as;
}
public void auto_detect_orientation(bool v) {
m_auto_detect = v;
}
public int line_join() const { return m_line_join; } // line_join_e
public int inner_join() const { return m_inner_join; } // inner_join_e
public float width() const { return m_width * 2.0f; }
public float miter_limit() const { return m_miter_limit; }
public float inner_miter_limit() const { return m_inner_miter_limit; }
public float approximation_scale() const { return m_approx_scale; }
public boolean auto_detect_orientation() const { return m_auto_detect; }
public void remove_all() {
m_src_vertices.remove_all();
m_closed = 0;
m_orientation = 0;
m_abs_width = fabs(m_width);
m_signed_width = m_width;
m_status = initial;
}
public void add_vertex(float x, float y, int cmd) {
m_status = initial;
if (agg_basics.is_move_to(cmd)) {
m_src_vertices.modify_last(vertex_dist(x, y));
} else {
if (is_vertex(cmd)) {
m_src_vertices.add(vertex_dist(x, y));
} else {
if (is_end_poly(cmd)) {
m_closed = get_close_flag(cmd);
if(m_orientation == path_flags_none) {
m_orientation = get_orientation(cmd);
}
}
}
}
}
//vcgen_contour(const vcgen_contour&);
//const vcgen_contour& operator = (const vcgen_contour&);
private vertex_storage m_src_vertices;
private coord_storage m_out_vertices;
private float m_width;
private int m_line_join; // line_join_e
private int m_inner_join; // inner_join_e
private float m_approx_scale;
private float m_abs_width;
private float m_signed_width;
private float m_miter_limit;
private float m_inner_miter_limit;
private int m_status; // status_e
private int m_src_vertex; // un
private int m_out_vertex; // un
private int m_closed; // un
private int m_orientation; // un
private boolean m_auto_detect;
public vcgen_contour() {
m_src_vertices = new vertex_storage();
m_out_vertices = new coord_storage();
m_width = 1.0f;
m_line_join = bevel_join;
m_inner_join = inner_miter;
m_approx_scale = 1.0f;
m_abs_width = 1.0f;
m_signed_width = 1.0f;
m_miter_limit = 4.0f;
m_inner_miter_limit = 1.0f + 1.0f/64.0f;
m_status = initial;
m_src_vertex = 0;
m_closed = 0;
m_orientation = 0;
m_auto_detect = false;
}
//void rewind(unsigned path_id);
public void rewind() {
if (m_status == initial) {
m_src_vertices.close(true);
m_signed_width = m_width;
if (m_auto_detect) {
if (!is_oriented(m_orientation)) {
m_orientation = (calc_polygon_area(m_src_vertices) > 0.0f) ?
path_flags_ccw :
path_flags_cw;
}
}
if(is_oriented(m_orientation)) {
m_signed_width = is_ccw(m_orientation) ? m_width : -m_width;
}
}
m_status = ready;
m_src_vertex = 0;
}
public int vertex(float x[], float y[], int offset) { // un
int cmd = path_cmd_line_to;
while (!is_stop(cmd)) {
switch(m_status) {
case initial:
rewind(0);
case ready:
//if(m_src_vertices.size() < 2 + unsigned(m_closed != 0)) {
if (m_src_vertices.size() < 2 + ((m_closed != 0) ? 1 : 0)) {
cmd = path_cmd_stop;
break;
}
m_status = outline;
cmd = path_cmd_move_to;
m_src_vertex = 0;
m_out_vertex = 0;
case outline:
if(m_src_vertex >= m_src_vertices.size()) {
m_status = end_poly;
break;
}
stroke_calc_join(m_out_vertices,
m_src_vertices.prev(m_src_vertex),
m_src_vertices.curr(m_src_vertex),
m_src_vertices.next(m_src_vertex),
m_src_vertices.prev(m_src_vertex).dist,
m_src_vertices.curr(m_src_vertex).dist,
m_signed_width,
m_line_join,
m_inner_join,
m_miter_limit,
m_inner_miter_limit,
m_approx_scale);
++m_src_vertex;
m_status = out_vertices;
m_out_vertex = 0;
case out_vertices:
if(m_out_vertex >= m_out_vertices.size()) {
m_status = outline;
} else {
const point_type& c = m_out_vertices[m_out_vertex++];
x[offset] = c.x;
y[offset] = c.y;
return cmd;
}
break;
case end_poly:
if (!m_closed) return path_cmd_stop;
m_status = stop;
return path_cmd_end_poly | path_flags_close | path_flags_ccw;
case stop:
return path_cmd_stop;
}
}
return cmd;
}
}
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