boinc/api/reduce.h

92 lines
3.1 KiB
C++

// Stores a "reduced" (i.e. lower-resolution) version of a 2-D array.
// The source data is passed one row at a time.
//
// This is used to draw graphs of 2-D data that may have much higher
// resolution in either or both dimensions than is useful for screen display.
//
// To use this:
//
// call set_max_dims() to set maximum dimensions of reduced array.
// (change this when window size changes)
// call init() to prepare to reduce a source array.
// call add_source_row() for each row of the source array.
// read nvalid_rows to see how many rows are in reduced array so far
// call rrow() to get a pointer to a particular row
// or call draw() to generate a picture.
// This is currently implemented as follows:
// If both dimensions are reduced (source dimension greater than reduced dim)
// then draw the graph as vertical lines.
// If reduced in one dimension, draw vertical rectangles.
// Otherwise draw quadrilaterals.
#ifndef REDUCE_H
#define REDUCE_H
#define REDUCE_METHOD_AVG 0 // Take the average of reduced elements
#define REDUCE_METHOD_SUM 1 // Take the sum of reduced elements
#define REDUCE_METHOD_MAX 2 // Take the maximum of reduced elements
#define REDUCE_METHOD_MIN 3 // Take the minimum of reduced elements
enum GRAPH_STYLE {
GRAPH_STYLE_RECTANGLES,
GRAPH_STYLE_PLANES,
GRAPH_STYLE_WIREFRAME,
GRAPH_STYLE_SURFACE
};
class REDUCED_ARRAY {
public:
int sdimx, sdimy; // size of the source array
int rdimx, rdimy; // size of the reduced array
int rdimx_max, rdimy_max; // maximum sizes of reduced array
// (determined by window size)
int scury; // next row of source array
float* rdata;
float rdata_max; // estimated or actual maximum
float rdata_min; // estimated or actual minimum
float* ftemp;
int* itemp;
// the following 2 are relevant only if sdimy > rdimy
int last_ry; // last row index accumulated into
int last_ry_count; // number of source rows accumulated so far
int nvalid_rows; // number of valid rows in reduced array
int ndrawn_rows; // number of rows drawn so far
float draw_pos[3];
float draw_size[3];
float draw_deltax;
float draw_deltaz;
int reduce_method; // Which method to use for data row reduction
double hue0;
double dhue;
float alpha;
char* xlabel,*ylabel,*zlabel;
GRAPH_STYLE draw_style;
REDUCED_ARRAY();
~REDUCED_ARRAY();
void init(int, int);
void init_draw(GRAPH_STYLE, float*, float*, double, double, float,char*,char*,char*);
void set_max_dims(int, int);
void reduce_source_row(float*, float*);
void add_source_row(float*);
bool full();
void reset();
void update_max(int row);
float* rrow(int j) {
return rdata + j*rdimx;
}
void draw_row_quad(int);
void draw_row_rect_x(int);
void draw_row_rect_y(int);
void draw_row_line(int);
void draw(int, int);
void draw_new();
void draw_all();
void draw_part(double frac);
void draw_axes();
void draw_axis_labels();
void draw_labels();
};
#endif