// 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_DRAW_STYLE { GRAPH_DRAW_STYLE_QUAD, GRAPH_DRAW_STYLE_STRIP, GRAPH_DRAW_STYLE_WAVE, GRAPH_DRAW_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; GRAPH_DRAW_STYLE draw_style; REDUCED_ARRAY(); ~REDUCED_ARRAY(); void init(int, int); void init_draw(GRAPH_DRAW_STYLE, float*, float*, double, double, float); 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(); void draw_3dlabels(); }; #endif