X-Git-Url: https://git.tokkee.org/?a=blobdiff_plain;f=src%2Fdisplay%2Fcanvas-axonomgrid.cpp;h=17fa97281da8f44c7b5d205f81dc5a9b16753758;hb=9a3bd4fde0634126efeedaa71a0b66acf6ef07a2;hp=909ebdcdaf917d79607adeb53733e75d101f5846;hpb=045f63cbeb581c5d2d4fa35d45396a888ed28f89;p=inkscape.git diff --git a/src/display/canvas-axonomgrid.cpp b/src/display/canvas-axonomgrid.cpp index 909ebdcda..17fa97281 100644 --- a/src/display/canvas-axonomgrid.cpp +++ b/src/display/canvas-axonomgrid.cpp @@ -1,469 +1,676 @@ -#define SP_CANVAS_AXONOMGRID_C - -/* - * SPCAxonomGrid - * - * Copyright (C) 2006 Johan Engelen - * Copyright (C) 2000 Lauris Kaplinski - * - */ - - /* - * Current limits are: one axis (y-axis) is always vertical. The other two - * axes are bound to a certain range of angles. The z-axis always has an angle - * smaller than 90 degrees (measured from horizontal, 0 degrees being a line extending - * to the right). The x-axis will always have an angle between 0 and 90 degrees. - * When I quickly think about it: all possibilities are probably covered this way. Eg. - * a z-axis with negative angle can be replaced with an x-axis, etc. - */ - - /* - * TODO: LOTS LOTS LOTS. Optimization etc. - * - */ - -#include "sp-canvas-util.h" -#include "canvas-axonomgrid.h" -#include "display-forward.h" -#include - -#define SAFE_SETPIXEL //undefine this when it is certain that setpixel is never called with invalid params - -enum { - ARG_0, - ARG_ORIGINX, - ARG_ORIGINY, - ARG_ANGLEX, - ARG_SPACINGY, - ARG_ANGLEZ, - ARG_COLOR, - ARG_EMPCOLOR, - ARG_EMPSPACING -}; - -enum Dim3 { X=0, Y, Z }; - -#ifndef M_PI -#define M_PI 3.14159265358979323846 -#endif - -static double deg_to_rad(double deg) { return deg*M_PI/180.0;} - - -static void sp_caxonomgrid_class_init (SPCAxonomGridClass *klass); -static void sp_caxonomgrid_init (SPCAxonomGrid *grid); -static void sp_caxonomgrid_destroy (GtkObject *object); -static void sp_caxonomgrid_set_arg (GtkObject *object, GtkArg *arg, guint arg_id); - -static void sp_caxonomgrid_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned int flags); -static void sp_caxonomgrid_render (SPCanvasItem *item, SPCanvasBuf *buf); - -static SPCanvasItemClass * parent_class; - -GtkType -sp_caxonomgrid_get_type (void) -{ - static GtkType caxonomgrid_type = 0; - - if (!caxonomgrid_type) { - GtkTypeInfo caxonomgrid_info = { - "SPCAxonomGrid", - sizeof (SPCAxonomGrid), - sizeof (SPCAxonomGridClass), - (GtkClassInitFunc) sp_caxonomgrid_class_init, - (GtkObjectInitFunc) sp_caxonomgrid_init, - NULL, NULL, - (GtkClassInitFunc) NULL - }; - caxonomgrid_type = gtk_type_unique (sp_canvas_item_get_type (), &caxonomgrid_info); - } - return caxonomgrid_type; -} - -static void -sp_caxonomgrid_class_init (SPCAxonomGridClass *klass) -{ - - GtkObjectClass *object_class; - SPCanvasItemClass *item_class; - - object_class = (GtkObjectClass *) klass; - item_class = (SPCanvasItemClass *) klass; - - parent_class = (SPCanvasItemClass*)gtk_type_class (sp_canvas_item_get_type ()); - - gtk_object_add_arg_type ("SPCAxonomGrid::originx", GTK_TYPE_DOUBLE, GTK_ARG_WRITABLE, ARG_ORIGINX); - gtk_object_add_arg_type ("SPCAxonomGrid::originy", GTK_TYPE_DOUBLE, GTK_ARG_WRITABLE, ARG_ORIGINY); - gtk_object_add_arg_type ("SPCAxonomGrid::anglex", GTK_TYPE_DOUBLE, GTK_ARG_WRITABLE, ARG_ANGLEX); - gtk_object_add_arg_type ("SPCAxonomGrid::spacingy", GTK_TYPE_DOUBLE, GTK_ARG_WRITABLE, ARG_SPACINGY); - gtk_object_add_arg_type ("SPCAxonomGrid::anglez", GTK_TYPE_DOUBLE, GTK_ARG_WRITABLE, ARG_ANGLEZ); - gtk_object_add_arg_type ("SPCAxonomGrid::color", GTK_TYPE_INT, GTK_ARG_WRITABLE, ARG_COLOR); - gtk_object_add_arg_type ("SPCAxonomGrid::empcolor", GTK_TYPE_INT, GTK_ARG_WRITABLE, ARG_EMPCOLOR); - gtk_object_add_arg_type ("SPCAxonomGrid::empspacing", GTK_TYPE_INT, GTK_ARG_WRITABLE, ARG_EMPSPACING); - - object_class->destroy = sp_caxonomgrid_destroy; - object_class->set_arg = sp_caxonomgrid_set_arg; - - item_class->update = sp_caxonomgrid_update; - item_class->render = sp_caxonomgrid_render; - -} - -static void -sp_caxonomgrid_init (SPCAxonomGrid *grid) -{ - grid->origin[NR::X] = grid->origin[NR::Y] = 0.0; -// grid->spacing[X] = grid->spacing[Y] = grid->spacing[Z] = 8.0; - grid->color = 0x0000ff7f; - grid->empcolor = 0x3F3FFF40; - grid->empspacing = 5; -} - -static void -sp_caxonomgrid_destroy (GtkObject *object) -{ - g_return_if_fail (object != NULL); - g_return_if_fail (SP_IS_CAXONOMGRID (object)); - - if (GTK_OBJECT_CLASS (parent_class)->destroy) - (* GTK_OBJECT_CLASS (parent_class)->destroy) (object); -} - -static void -sp_caxonomgrid_set_arg (GtkObject *object, GtkArg *arg, guint arg_id) -{ - SPCanvasItem *item = SP_CANVAS_ITEM (object); - SPCAxonomGrid *grid = SP_CAXONOMGRID (object); - - g_message("arg"); - - switch (arg_id) { - case ARG_ORIGINX: - grid->origin[NR::X] = GTK_VALUE_DOUBLE (* arg); - sp_canvas_item_request_update (item); - break; - case ARG_ORIGINY: - grid->origin[NR::Y] = GTK_VALUE_DOUBLE (* arg); - sp_canvas_item_request_update (item); - break; - case ARG_ANGLEX: - grid->angle_deg[X] = GTK_VALUE_DOUBLE (* arg); - if (grid->angle_deg[X] < 0.0) grid->angle_deg[X] = 0.0; - grid->angle_rad[X] = deg_to_rad(grid->angle_deg[X]); - grid->tan_angle[X] = tan(grid->angle_rad[X]); - sp_canvas_item_request_update (item); - break; - case ARG_SPACINGY: - grid->lengthy = GTK_VALUE_DOUBLE (* arg); - if (grid->lengthy < 0.01) grid->lengthy = 0.01; - sp_canvas_item_request_update (item); - break; - case ARG_ANGLEZ: - grid->angle_deg[Z] = GTK_VALUE_DOUBLE (* arg); - if (grid->angle_deg[Z] < 0.0) grid->angle_deg[Z] = 0.0; - grid->angle_rad[Z] = deg_to_rad(grid->angle_deg[Z]); - grid->tan_angle[Z] = tan(grid->angle_rad[Z]); - sp_canvas_item_request_update (item); - break; - case ARG_COLOR: - grid->color = GTK_VALUE_INT (* arg); - sp_canvas_item_request_update (item); - break; - case ARG_EMPCOLOR: - grid->empcolor = GTK_VALUE_INT (* arg); - sp_canvas_item_request_update (item); - break; - case ARG_EMPSPACING: - grid->empspacing = GTK_VALUE_INT (* arg); - // std::cout << "Emphasis Spacing: " << grid->empspacing << std::endl; - sp_canvas_item_request_update (item); - break; - default: - break; - } -} - - - -/** - \brief This function renders a pixel on a particular buffer. - - The topleft of the buffer equals - ( rect.x0 , rect.y0 ) in screen coordinates - ( 0 , 0 ) in setpixel coordinates - The bottomright of the buffer equals - ( rect.x1 , rect,y1 ) in screen coordinates - ( rect.x1 - rect.x0 , rect.y1 - rect.y0 ) in setpixel coordinates -*/ -static void -sp_caxonomgrid_setpixel (SPCanvasBuf *buf, gint x, gint y, guint32 rgba) { -#ifdef SAFE_SETPIXEL - if ( (x >= buf->rect.x0) && (x < buf->rect.x1) && (y >= buf->rect.y0) && (y < buf->rect.y1) ) { -#endif - guint r, g, b, a; - r = NR_RGBA32_R (rgba); - g = NR_RGBA32_G (rgba); - b = NR_RGBA32_B (rgba); - a = NR_RGBA32_A (rgba); - guchar * p = buf->buf + (y - buf->rect.y0) * buf->buf_rowstride + (x - buf->rect.x0) * 3; - p[0] = NR_COMPOSEN11_1111 (r, a, p[0]); - p[1] = NR_COMPOSEN11_1111 (g, a, p[1]); - p[2] = NR_COMPOSEN11_1111 (b, a, p[2]); -#ifdef SAFE_SETPIXEL - } -#endif -} - -/** - \brief This function renders a line on a particular canvas buffer, - using Bresenham's line drawing function. - http://www.cs.unc.edu/~mcmillan/comp136/Lecture6/Lines.html - Coordinates are interpreted as SCREENcoordinates -*/ -static void -sp_caxonomgrid_drawline (SPCanvasBuf *buf, gint x0, gint y0, gint x1, gint y1, guint32 rgba) { - int dy = y1 - y0; - int dx = x1 - x0; - int stepx, stepy; - - if (dy < 0) { dy = -dy; stepy = -1; } else { stepy = 1; } - if (dx < 0) { dx = -dx; stepx = -1; } else { stepx = 1; } - dy <<= 1; // dy is now 2*dy - dx <<= 1; // dx is now 2*dx - - sp_caxonomgrid_setpixel(buf, x0, y0, rgba); - if (dx > dy) { - int fraction = dy - (dx >> 1); // same as 2*dy - dx - while (x0 != x1) { - if (fraction >= 0) { - y0 += stepy; - fraction -= dx; // same as fraction -= 2*dx - } - x0 += stepx; - fraction += dy; // same as fraction -= 2*dy - sp_caxonomgrid_setpixel(buf, x0, y0, rgba); - } - } else { - int fraction = dx - (dy >> 1); - while (y0 != y1) { - if (fraction >= 0) { - x0 += stepx; - fraction -= dy; - } - y0 += stepy; - fraction += dx; - sp_caxonomgrid_setpixel(buf, x0, y0, rgba); - } - } - -} - -static void -sp_grid_vline (SPCanvasBuf *buf, gint x, gint ys, gint ye, guint32 rgba) -{ - if ((x >= buf->rect.x0) && (x < buf->rect.x1)) { - guint r, g, b, a; - gint y0, y1, y; - guchar *p; - r = NR_RGBA32_R(rgba); - g = NR_RGBA32_G (rgba); - b = NR_RGBA32_B (rgba); - a = NR_RGBA32_A (rgba); - y0 = MAX (buf->rect.y0, ys); - y1 = MIN (buf->rect.y1, ye + 1); - p = buf->buf + (y0 - buf->rect.y0) * buf->buf_rowstride + (x - buf->rect.x0) * 3; - for (y = y0; y < y1; y++) { - p[0] = NR_COMPOSEN11_1111 (r, a, p[0]); - p[1] = NR_COMPOSEN11_1111 (g, a, p[1]); - p[2] = NR_COMPOSEN11_1111 (b, a, p[2]); - p += buf->buf_rowstride; - } - } -} - -/** - \brief This function renders the grid on a particular canvas buffer - \param item The grid to render on the buffer - \param buf The buffer to render the grid on - - This function gets called a touch more than you might believe, - about once per tile. This means that it could probably be optimized - and help things out. - - Basically this function has to determine where in the canvas it is, - and how that associates with the grid. It does this first by looking - at the bounding box of the buffer, and then calculates where the grid - starts in that buffer. It will then step through grid lines until - it is outside of the buffer. - - For each grid line it is drawn using the function \c sp_grid_hline - or \c sp_grid_vline. These are convience functions for the sake - of making the function easier to read. - - Also, there are emphasized lines on the grid. While the \c syg and - \c sxg variable track grid positioning, the \c xlinestart and \c - ylinestart variables track the 'count' of what lines they are. If - that count is a multiple of the line seperation between emphasis - lines, then that line is drawn in the emphasis color. -*/ -static void -sp_caxonomgrid_render (SPCanvasItem * item, SPCanvasBuf * buf) -{ - SPCAxonomGrid *grid = SP_CAXONOMGRID (item); - - sp_canvas_prepare_buffer (buf); - - // gc = gridcoordinates (the coordinates calculated from the grids origin 'grid->ow'. - // sc = screencoordinates ( for example "buf->rect.x0" is in screencoordinates ) - // bc = buffer patch coordinates - - // tl = topleft ; br = bottomright - NR::Point buf_tl_gc; - NR::Point buf_br_gc; - buf_tl_gc[NR::X] = buf->rect.x0 - grid->ow[NR::X]; - buf_tl_gc[NR::Y] = buf->rect.y0 - grid->ow[NR::Y]; - buf_br_gc[NR::X] = buf->rect.x1 - grid->ow[NR::X]; - buf_br_gc[NR::Y] = buf->rect.y1 - grid->ow[NR::Y]; - - - gdouble x; - gdouble y; - - // render the three separate line groups representing the main-axes: - // x-axis always goes from topleft to bottomright. (0,0) - (1,1) - const gdouble xintercept_y_bc = (buf_tl_gc[NR::X] * grid->tan_angle[X]) - buf_tl_gc[NR::Y] ; - const gdouble xstart_y_sc = ( xintercept_y_bc - floor(xintercept_y_bc/grid->lyw)*grid->lyw ) + buf->rect.y0; - const gint xlinestart = (gint) Inkscape::round( (xstart_y_sc - grid->ow[NR::Y]) / grid->lyw ); - gint xlinenum; - // lijnen vanaf linker zijkant. - for (y = xstart_y_sc, xlinenum = xlinestart; y < buf->rect.y1; y += grid->lyw, xlinenum++) { - const gint x0 = buf->rect.x0; - const gint y0 = (gint) Inkscape::round(y); - const gint x1 = x0 + (gint) Inkscape::round( (buf->rect.y1 - y) / grid->tan_angle[X] ); - const gint y1 = buf->rect.y1; - - if (!grid->scaled && (xlinenum % grid->empspacing) == 0) { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->empcolor); - } else { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->color); - } - } - // lijnen vanaf bovenkant. - const gdouble xstart_x_sc = buf->rect.x0 + (grid->lxw_x - (xstart_y_sc - buf->rect.y0) / grid->tan_angle[X]) ; - for (x = xstart_x_sc, xlinenum = xlinestart; x < buf->rect.x1; x += grid->lxw_x, xlinenum--) { - const gint y0 = buf->rect.y0; - const gint y1 = buf->rect.y1; - const gint x0 = (gint) Inkscape::round(x); - const gint x1 = x0 + (gint) Inkscape::round( (y1 - y0) / grid->tan_angle[X] ); - - if (!grid->scaled && (xlinenum % grid->empspacing) == 0) { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->empcolor); - } else { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->color); - } - } - - - // y-axis lines (vertical) - const gdouble ystart_x_sc = floor (buf_tl_gc[NR::X] / grid->spacing_ylines) * grid->spacing_ylines + grid->ow[NR::X]; - const gint ylinestart = (gint) Inkscape::round((ystart_x_sc - grid->ow[NR::X]) / grid->spacing_ylines); - gint ylinenum; - for (x = ystart_x_sc, ylinenum = ylinestart; x < buf->rect.x1; x += grid->spacing_ylines, ylinenum++) { - const gint x0 = (gint) Inkscape::round(x); - - if (!grid->scaled && (ylinenum % grid->empspacing) == 0) { - sp_grid_vline (buf, x0, buf->rect.y0, buf->rect.y1 - 1, grid->empcolor); - } else { - sp_grid_vline (buf, x0, buf->rect.y0, buf->rect.y1 - 1, grid->color); - } - } - - // z-axis always goes from bottomleft to topright. (0,1) - (1,0) - const gdouble zintercept_y_bc = (buf_tl_gc[NR::X] * -grid->tan_angle[Z]) - buf_tl_gc[NR::Y] ; - const gdouble zstart_y_sc = ( zintercept_y_bc - floor(zintercept_y_bc/grid->lyw)*grid->lyw ) + buf->rect.y0; - const gint zlinestart = (gint) Inkscape::round( (zstart_y_sc - grid->ow[NR::Y]) / grid->lyw ); - gint zlinenum; - // lijnen vanaf linker zijkant. - for (y = zstart_y_sc, zlinenum = zlinestart; y < buf->rect.y1; y += grid->lyw, zlinenum++) { - const gint x0 = buf->rect.x0; - const gint y0 = (gint) Inkscape::round(y); - const gint x1 = x0 + (gint) Inkscape::round( (y - buf->rect.y0 ) / grid->tan_angle[Z] ); - const gint y1 = buf->rect.y0; - - if (!grid->scaled && (zlinenum % grid->empspacing) == 0) { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->empcolor); - } else { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->color); - } - } - // lijnen vanaf onderkant. - const gdouble zstart_x_sc = buf->rect.x0 + (y - buf->rect.y1) / grid->tan_angle[Z] ; - for (x = zstart_x_sc; x < buf->rect.x1; x += grid->lxw_z, zlinenum--) { - const gint y0 = buf->rect.y1; - const gint y1 = buf->rect.y0; - const gint x0 = (gint) Inkscape::round(x); - const gint x1 = x0 + (gint) Inkscape::round( (buf->rect.y1 - buf->rect.y0) / grid->tan_angle[Z] ); - - if (!grid->scaled && (zlinenum % grid->empspacing) == 0) { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->empcolor); - } else { - sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, grid->color); - } - } - -} - -static void -sp_caxonomgrid_update (SPCanvasItem *item, NR::Matrix const &affine, unsigned int flags) -{ - SPCAxonomGrid *grid = SP_CAXONOMGRID (item); - - if (parent_class->update) - (* parent_class->update) (item, affine, flags); - - grid->ow = grid->origin * affine; - grid->sw = NR::Point(fabs(affine[0]),fabs(affine[3])); - - for(int dim = 0; dim < 2; dim++) { - gint scaling_factor = grid->empspacing; - - if (scaling_factor <= 1) - scaling_factor = 5; - - grid->scaled = FALSE; - while (grid->sw[dim] < 8.0) { - grid->scaled = TRUE; - grid->sw[dim] *= scaling_factor; - // First pass, go up to the major line spacing, then - // keep increasing by two. - scaling_factor = 2; - } - } - - grid->spacing_ylines = grid->sw[NR::X] * grid->lengthy /(grid->tan_angle[X] + grid->tan_angle[Z]); - grid->lyw = grid->lengthy * grid->sw[NR::Y]; - grid->lxw_x = (grid->lengthy / grid->tan_angle[X]) * grid->sw[NR::X]; - grid->lxw_z = (grid->lengthy / grid->tan_angle[Z]) * grid->sw[NR::X]; - - if (grid->empspacing == 0) { - grid->scaled = TRUE; - } - - sp_canvas_request_redraw (item->canvas, - -1000000, -1000000, - 1000000, 1000000); - - item->x1 = item->y1 = -1000000; - item->x2 = item->y2 = 1000000; -} - -/* - Local Variables: - mode:c++ - c-file-style:"stroustrup" - c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) - indent-tabs-mode:nil - fill-column:99 - End: -*/ -// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 : +#define CANVAS_AXONOMGRID_C + +/* + * Copyright (C) 2006-2007 Johan Engelen + */ + + /* + * Current limits are: one axis (y-axis) is always vertical. The other two + * axes are bound to a certain range of angles. The z-axis always has an angle + * smaller than 90 degrees (measured from horizontal, 0 degrees being a line extending + * to the right). The x-axis will always have an angle between 0 and 90 degrees. + * When I quickly think about it: all possibilities are probably covered this way. Eg. + * a z-axis with negative angle can be replaced with an x-axis, etc. + */ + + /* + * TODO: LOTS LOTS LOTS. Clean up code. dirty as hell + * THIS FILE AND THE HEADER FILE NEED HUGE CLEANING UP. PLEASE DO NOT HESISTATE TO DO SO. +* For example: the line drawing code should not be here. There _must_ be a function somewhere else that can provide this functionality... + */ + +#include "sp-canvas-util.h" +#include "canvas-axonomgrid.h" +#include "display-forward.h" +#include + + +#include "canvas-grid.h" +#include "desktop-handles.h" +#include "helper/units.h" +#include "svg/svg-color.h" +#include "xml/node-event-vector.h" +#include "sp-object.h" + +#include "sp-namedview.h" +#include "inkscape.h" +#include "desktop.h" + +#include "../document.h" + +#define SAFE_SETPIXEL //undefine this when it is certain that setpixel is never called with invalid params + +enum Dim3 { X=0, Y, Z }; + +#ifndef M_PI +#define M_PI 3.14159265358979323846 +#endif + +static double deg_to_rad(double deg) { return deg*M_PI/180.0;} + + +/** + \brief This function renders a pixel on a particular buffer. + + The topleft of the buffer equals + ( rect.x0 , rect.y0 ) in screen coordinates + ( 0 , 0 ) in setpixel coordinates + The bottomright of the buffer equals + ( rect.x1 , rect,y1 ) in screen coordinates + ( rect.x1 - rect.x0 , rect.y1 - rect.y0 ) in setpixel coordinates +*/ +static void +sp_caxonomgrid_setpixel (SPCanvasBuf *buf, gint x, gint y, guint32 rgba) { +#ifdef SAFE_SETPIXEL + if ( (x >= buf->rect.x0) && (x < buf->rect.x1) && (y >= buf->rect.y0) && (y < buf->rect.y1) ) { +#endif + guint r, g, b, a; + r = NR_RGBA32_R (rgba); + g = NR_RGBA32_G (rgba); + b = NR_RGBA32_B (rgba); + a = NR_RGBA32_A (rgba); + guchar * p = buf->buf + (y - buf->rect.y0) * buf->buf_rowstride + (x - buf->rect.x0) * 3; + p[0] = NR_COMPOSEN11_1111 (r, a, p[0]); + p[1] = NR_COMPOSEN11_1111 (g, a, p[1]); + p[2] = NR_COMPOSEN11_1111 (b, a, p[2]); +#ifdef SAFE_SETPIXEL + } +#endif +} + +/** + \brief This function renders a line on a particular canvas buffer, + using Bresenham's line drawing function. + http://www.cs.unc.edu/~mcmillan/comp136/Lecture6/Lines.html + Coordinates are interpreted as SCREENcoordinates +*/ +static void +sp_caxonomgrid_drawline (SPCanvasBuf *buf, gint x0, gint y0, gint x1, gint y1, guint32 rgba) { + int dy = y1 - y0; + int dx = x1 - x0; + int stepx, stepy; + + if (dy < 0) { dy = -dy; stepy = -1; } else { stepy = 1; } + if (dx < 0) { dx = -dx; stepx = -1; } else { stepx = 1; } + dy <<= 1; // dy is now 2*dy + dx <<= 1; // dx is now 2*dx + + sp_caxonomgrid_setpixel(buf, x0, y0, rgba); + if (dx > dy) { + int fraction = dy - (dx >> 1); // same as 2*dy - dx + while (x0 != x1) { + if (fraction >= 0) { + y0 += stepy; + fraction -= dx; // same as fraction -= 2*dx + } + x0 += stepx; + fraction += dy; // same as fraction -= 2*dy + sp_caxonomgrid_setpixel(buf, x0, y0, rgba); + } + } else { + int fraction = dx - (dy >> 1); + while (y0 != y1) { + if (fraction >= 0) { + x0 += stepx; + fraction -= dy; + } + y0 += stepy; + fraction += dx; + sp_caxonomgrid_setpixel(buf, x0, y0, rgba); + } + } + +} + +static void +sp_grid_vline (SPCanvasBuf *buf, gint x, gint ys, gint ye, guint32 rgba) +{ + if ((x >= buf->rect.x0) && (x < buf->rect.x1)) { + guint r, g, b, a; + gint y0, y1, y; + guchar *p; + r = NR_RGBA32_R(rgba); + g = NR_RGBA32_G (rgba); + b = NR_RGBA32_B (rgba); + a = NR_RGBA32_A (rgba); + y0 = MAX (buf->rect.y0, ys); + y1 = MIN (buf->rect.y1, ye + 1); + p = buf->buf + (y0 - buf->rect.y0) * buf->buf_rowstride + (x - buf->rect.x0) * 3; + for (y = y0; y < y1; y++) { + p[0] = NR_COMPOSEN11_1111 (r, a, p[0]); + p[1] = NR_COMPOSEN11_1111 (g, a, p[1]); + p[2] = NR_COMPOSEN11_1111 (b, a, p[2]); + p += buf->buf_rowstride; + } + } +} + +namespace Inkscape { + + +/** +* A DIRECT COPY-PASTE FROM DOCUMENT-PROPERTIES.CPP TO QUICKLY GET RESULTS +* + * Helper function that attachs widgets in a 3xn table. The widgets come in an + * array that has two entries per table row. The two entries code for four + * possible cases: (0,0) means insert space in first column; (0, non-0) means + * widget in columns 2-3; (non-0, 0) means label in columns 1-3; and + * (non-0, non-0) means two widgets in columns 2 and 3. +**/ +#define SPACE_SIZE_X 15 +#define SPACE_SIZE_Y 10 +static inline void +attach_all (Gtk::Table &table, const Gtk::Widget *arr[], unsigned size, int start = 0) +{ + for (unsigned i=0, r=start; i(*arr[i]), 1, 2, r, r+1, + Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0); + table.attach (const_cast(*arr[i+1]), 2, 3, r, r+1, + Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0); + } + else + { + if (arr[i+1]) + table.attach (const_cast(*arr[i+1]), 1, 3, r, r+1, + Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0); + else if (arr[i]) + { + Gtk::Label& label = reinterpret_cast (const_cast(*arr[i])); + label.set_alignment (0.0); + table.attach (label, 0, 3, r, r+1, + Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0); + } + else + { + Gtk::HBox *space = manage (new Gtk::HBox); + space->set_size_request (SPACE_SIZE_X, SPACE_SIZE_Y); + table.attach (*space, 0, 1, r, r+1, + (Gtk::AttachOptions)0, (Gtk::AttachOptions)0,0,0); + } + } + ++r; + } +} + +CanvasAxonomGrid::CanvasAxonomGrid (SPNamedView * nv, Inkscape::XML::Node * in_repr, SPDocument * in_doc) + : CanvasGrid(nv, in_repr, in_doc), table(1, 1) +{ + + origin[NR::X] = origin[NR::Y] = 0.0; +// nv->gridcolor = (nv->gridcolor & 0xff) | (DEFAULTGRIDCOLOR & 0xffffff00); +// case SP_ATTR_GRIDOPACITY: +// nv->gridcolor = (nv->gridcolor & 0xffffff00) | (DEFAULTGRIDCOLOR & 0xff); + color = 0xff3f3f20; + empcolor = 0xFF3F3F40; + empspacing = 5; + gridunit = &sp_unit_get_by_id(SP_UNIT_PX); + angle_deg[X] = angle_deg[Z] = 30; + angle_deg[Y] =0; + lengthy = 1; + + angle_rad[X] = deg_to_rad(angle_deg[X]); + tan_angle[X] = tan(angle_rad[X]); + angle_rad[Z] = deg_to_rad(angle_deg[Z]); + tan_angle[Z] = tan(angle_rad[Z]); + + snapper = new CanvasAxonomGridSnapper(this, namedview, 0); + + // initialize widgets: + vbox.set_border_width(2); + table.set_spacings(2); + vbox.pack_start(table, false, false, 0); + + _rumg.init (_("Grid _units:"), "units", _wr, repr, doc); + _rsu_ox.init (_("_Origin X:"), _("X coordinate of grid origin"), + "originx", _rumg, _wr, repr, doc); + _rsu_oy.init (_("O_rigin Y:"), _("Y coordinate of grid origin"), + "originy", _rumg, _wr, repr, doc); + _rsu_sy.init (_("Spacing _Y:"), _("Base length of z-axis"), + "spacingy", _rumg, _wr, repr, doc); + _rsu_ax.init (_("Angle X:"), _("Angle of x-axis"), + "gridanglex", _rumg, _wr, repr, doc); + _rsu_az.init (_("Angle Z:"), _("Angle of z-axis"), + "gridanglez", _rumg, _wr, repr, doc); + _rcp_gcol.init (_("Grid line _color:"), _("Grid line color"), + _("Color of grid lines"), "color", "opacity", _wr, repr, doc); + _rcp_gmcol.init (_("Ma_jor grid line color:"), _("Major grid line color"), + _("Color of the major (highlighted) grid lines"), + "empcolor", "empopacity", _wr, repr, doc); + _rsi.init (_("_Major grid line every:"), _("lines"), "empspacing", _wr, repr, doc); + + const Gtk::Widget* widget_array[] = + { + 0, _rcbgrid._button, + _rumg._label, _rumg._sel, + 0, _rsu_ox.getSU(), + 0, _rsu_oy.getSU(), + 0, _rsu_sy.getSU(), + 0, _rsu_ax.getSU(), + 0, _rsu_az.getSU(), + _rcp_gcol._label, _rcp_gcol._cp, + 0, 0, + _rcp_gmcol._label, _rcp_gmcol._cp, + _rsi._label, &_rsi._hbox, + }; + + attach_all (table, widget_array, sizeof(widget_array)); + + vbox.show(); + + if (repr) readRepr(); + updateWidgets(); +} + +CanvasAxonomGrid::~CanvasAxonomGrid () +{ + if (snapper) delete snapper; +} + + +/* fixme: Collect all these length parsing methods and think common sane API */ + +static gboolean sp_nv_read_length(const gchar *str, guint base, gdouble *val, const SPUnit **unit) +{ + if (!str) { + return FALSE; + } + + gchar *u; + gdouble v = g_ascii_strtod(str, &u); + if (!u) { + return FALSE; + } + while (isspace(*u)) { + u += 1; + } + + if (!*u) { + /* No unit specified - keep default */ + *val = v; + return TRUE; + } + + if (base & SP_UNIT_DEVICE) { + if (u[0] && u[1] && !isalnum(u[2]) && !strncmp(u, "px", 2)) { + *unit = &sp_unit_get_by_id(SP_UNIT_PX); + *val = v; + return TRUE; + } + } + + if (base & SP_UNIT_ABSOLUTE) { + if (!strncmp(u, "pt", 2)) { + *unit = &sp_unit_get_by_id(SP_UNIT_PT); + } else if (!strncmp(u, "mm", 2)) { + *unit = &sp_unit_get_by_id(SP_UNIT_MM); + } else if (!strncmp(u, "cm", 2)) { + *unit = &sp_unit_get_by_id(SP_UNIT_CM); + } else if (!strncmp(u, "m", 1)) { + *unit = &sp_unit_get_by_id(SP_UNIT_M); + } else if (!strncmp(u, "in", 2)) { + *unit = &sp_unit_get_by_id(SP_UNIT_IN); + } else { + return FALSE; + } + *val = v; + return TRUE; + } + + return FALSE; +} + +static gboolean sp_nv_read_opacity(const gchar *str, guint32 *color) +{ + if (!str) { + return FALSE; + } + + gchar *u; + gdouble v = g_ascii_strtod(str, &u); + if (!u) { + return FALSE; + } + v = CLAMP(v, 0.0, 1.0); + + *color = (*color & 0xffffff00) | (guint32) floor(v * 255.9999); + + return TRUE; +} + + + +void +CanvasAxonomGrid::readRepr() +{ + gchar const* value; + if ( (value = repr->attribute("originx")) ) { + sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &origin[NR::X], &gridunit); + origin[NR::X] = sp_units_get_pixels(origin[NR::X], *(gridunit)); + } + if ( (value = repr->attribute("originy")) ) { + sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &origin[NR::Y], &gridunit); + origin[NR::Y] = sp_units_get_pixels(origin[NR::Y], *(gridunit)); + } + + if ( (value = repr->attribute("spacingy")) ) { + sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &lengthy, &gridunit); + lengthy = sp_units_get_pixels(lengthy, *(gridunit)); + if (lengthy < 1.0) lengthy = 1.0; + } + + if ( (value = repr->attribute("gridanglex")) ) { + angle_deg[X] = g_ascii_strtod(value, NULL); + if (angle_deg[X] < 1.0) angle_deg[X] = 1.0; + if (angle_deg[X] > 89.0) angle_deg[X] = 89.0; + angle_rad[X] = deg_to_rad(angle_deg[X]); + tan_angle[X] = tan(angle_rad[X]); + } + + if ( (value = repr->attribute("gridanglez")) ) { + angle_deg[Z] = g_ascii_strtod(value, NULL); + if (angle_deg[Z] < 1.0) angle_deg[Z] = 1.0; + if (angle_deg[Z] > 89.0) angle_deg[Z] = 89.0; + angle_rad[Z] = deg_to_rad(angle_deg[Z]); + tan_angle[Z] = tan(angle_rad[Z]); + } + + if ( (value = repr->attribute("color")) ) { + color = (color & 0xff) | sp_svg_read_color(value, color); + } + + if ( (value = repr->attribute("empcolor")) ) { + empcolor = (empcolor & 0xff) | sp_svg_read_color(value, empcolor); + } + + if ( (value = repr->attribute("opacity")) ) { + sp_nv_read_opacity(value, &color); + } + if ( (value = repr->attribute("empopacity")) ) { + sp_nv_read_opacity(value, &empcolor); + } + + if ( (value = repr->attribute("empspacing")) ) { + empspacing = atoi(value); + } + + for (GSList *l = canvasitems; l != NULL; l = l->next) { + sp_canvas_item_request_update ( SP_CANVAS_ITEM(l->data) ); + } + return; +} + +/** + * Called when XML node attribute changed; updates dialog widgets if change was not done by widgets themselves. + */ +void +CanvasAxonomGrid::onReprAttrChanged (Inkscape::XML::Node * repr, const gchar *key, const gchar *oldval, const gchar *newval, bool is_interactive) +{ + readRepr(); + + if ( ! (_wr.isUpdating()) ) + updateWidgets(); +} + + + + +Gtk::Widget & +CanvasAxonomGrid::getWidget() +{ + return vbox; +} + + +/** + * Update dialog widgets from object's values. + */ +void +CanvasAxonomGrid::updateWidgets() +{ + if (_wr.isUpdating()) return; + + _wr.setUpdating (true); + +// _rrb_gridtype.setValue (nv->gridtype); + _rumg.setUnit (gridunit); + + gdouble val; + val = origin[NR::X]; + val = sp_pixels_get_units (val, *(gridunit)); + _rsu_ox.setValue (val); + val = origin[NR::Y]; + val = sp_pixels_get_units (val, *(gridunit)); + _rsu_oy.setValue (val); + val = lengthy; + double gridy = sp_pixels_get_units (val, *(gridunit)); + _rsu_sy.setValue (gridy); + + _rsu_ax.setValue(angle_deg[X]); + _rsu_az.setValue(angle_deg[Z]); + + _rcp_gcol.setRgba32 (color); + _rcp_gmcol.setRgba32 (empcolor); + _rsi.setValue (empspacing); + + _wr.setUpdating (false); + + return; +} + + + +void +CanvasAxonomGrid::Update (NR::Matrix const &affine, unsigned int flags) +{ + ow = origin * affine; + sw = NR::Point(fabs(affine[0]),fabs(affine[3])); + + for(int dim = 0; dim < 2; dim++) { + gint scaling_factor = empspacing; + + if (scaling_factor <= 1) + scaling_factor = 5; + + scaled = FALSE; + int watchdog = 0; + while ( (sw[dim] < 8.0) & (watchdog < 100) ) { + scaled = TRUE; + sw[dim] *= scaling_factor; + // First pass, go up to the major line spacing, then + // keep increasing by two. + scaling_factor = 2; + watchdog++; + } + + } + + spacing_ylines = sw[NR::X] * lengthy /(tan_angle[X] + tan_angle[Z]); + lyw = lengthy * sw[NR::Y]; + lxw_x = (lengthy / tan_angle[X]) * sw[NR::X]; + lxw_z = (lengthy / tan_angle[Z]) * sw[NR::X]; + + if (empspacing == 0) { + scaled = TRUE; + } + +} + +void +CanvasAxonomGrid::Render (SPCanvasBuf *buf) +{ + // gc = gridcoordinates (the coordinates calculated from the grids origin 'grid->ow'. + // sc = screencoordinates ( for example "buf->rect.x0" is in screencoordinates ) + // bc = buffer patch coordinates + + // tl = topleft ; br = bottomright + NR::Point buf_tl_gc; + NR::Point buf_br_gc; + buf_tl_gc[NR::X] = buf->rect.x0 - ow[NR::X]; + buf_tl_gc[NR::Y] = buf->rect.y0 - ow[NR::Y]; + buf_br_gc[NR::X] = buf->rect.x1 - ow[NR::X]; + buf_br_gc[NR::Y] = buf->rect.y1 - ow[NR::Y]; + + gdouble x; + gdouble y; + + // render the three separate line groups representing the main-axes: + // x-axis always goes from topleft to bottomright. (0,0) - (1,1) + const gdouble xintercept_y_bc = (buf_tl_gc[NR::X] * tan_angle[X]) - buf_tl_gc[NR::Y] ; + const gdouble xstart_y_sc = ( xintercept_y_bc - floor(xintercept_y_bc/lyw)*lyw ) + buf->rect.y0; + const gint xlinestart = (gint) Inkscape::round( (xstart_y_sc - ow[NR::Y]) / lyw ); + gint xlinenum; + // lijnen vanaf linker zijkant. + for (y = xstart_y_sc, xlinenum = xlinestart; y < buf->rect.y1; y += lyw, xlinenum++) { + const gint x0 = buf->rect.x0; + const gint y0 = (gint) Inkscape::round(y); + const gint x1 = x0 + (gint) Inkscape::round( (buf->rect.y1 - y) / tan_angle[X] ); + const gint y1 = buf->rect.y1; + + if (!scaled && (xlinenum % empspacing) == 0) { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, empcolor); + } else { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, color); + } + } + // lijnen vanaf bovenkant. + const gdouble xstart_x_sc = buf->rect.x0 + (lxw_x - (xstart_y_sc - buf->rect.y0) / tan_angle[X]) ; + for (x = xstart_x_sc, xlinenum = xlinestart; x < buf->rect.x1; x += lxw_x, xlinenum--) { + const gint y0 = buf->rect.y0; + const gint y1 = buf->rect.y1; + const gint x0 = (gint) Inkscape::round(x); + const gint x1 = x0 + (gint) Inkscape::round( (y1 - y0) / tan_angle[X] ); + + if (!scaled && (xlinenum % empspacing) == 0) { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, empcolor); + } else { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, color); + } + } + + + // y-axis lines (vertical) + const gdouble ystart_x_sc = floor (buf_tl_gc[NR::X] / spacing_ylines) * spacing_ylines + ow[NR::X]; + const gint ylinestart = (gint) Inkscape::round((ystart_x_sc - ow[NR::X]) / spacing_ylines); + gint ylinenum; + for (x = ystart_x_sc, ylinenum = ylinestart; x < buf->rect.x1; x += spacing_ylines, ylinenum++) { + const gint x0 = (gint) Inkscape::round(x); + + if (!scaled && (ylinenum % empspacing) == 0) { + sp_grid_vline (buf, x0, buf->rect.y0, buf->rect.y1 - 1, empcolor); + } else { + sp_grid_vline (buf, x0, buf->rect.y0, buf->rect.y1 - 1, color); + } + } + + // z-axis always goes from bottomleft to topright. (0,1) - (1,0) + const gdouble zintercept_y_bc = (buf_tl_gc[NR::X] * -tan_angle[Z]) - buf_tl_gc[NR::Y] ; + const gdouble zstart_y_sc = ( zintercept_y_bc - floor(zintercept_y_bc/lyw)*lyw ) + buf->rect.y0; + const gint zlinestart = (gint) Inkscape::round( (zstart_y_sc - ow[NR::Y]) / lyw ); + gint zlinenum; + // lijnen vanaf linker zijkant. + for (y = zstart_y_sc, zlinenum = zlinestart; y < buf->rect.y1; y += lyw, zlinenum++) { + const gint x0 = buf->rect.x0; + const gint y0 = (gint) Inkscape::round(y); + const gint x1 = x0 + (gint) Inkscape::round( (y - buf->rect.y0 ) / tan_angle[Z] ); + const gint y1 = buf->rect.y0; + + if (!scaled && (zlinenum % empspacing) == 0) { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, empcolor); + } else { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, color); + } + } + // draw lines from bottom-up + const gdouble zstart_x_sc = buf->rect.x0 + (y - buf->rect.y1) / tan_angle[Z] ; + for (x = zstart_x_sc; x < buf->rect.x1; x += lxw_z, zlinenum--) { + const gint y0 = buf->rect.y1; + const gint y1 = buf->rect.y0; + const gint x0 = (gint) Inkscape::round(x); + const gint x1 = x0 + (gint) Inkscape::round( (buf->rect.y1 - buf->rect.y0) / tan_angle[Z] ); + + if (!scaled && (zlinenum % empspacing) == 0) { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, empcolor); + } else { + sp_caxonomgrid_drawline (buf, x0, y0, x1, y1, color); + } + } +} + + + + + + + + + + + + +/** + * \return x rounded to the nearest multiple of c1 plus c0. + * + * \note + * If c1==0 (and c0 is finite), then returns +/-inf. This makes grid spacing of zero + * mean "ignore the grid in this dimention". We're currently discussing "good" semantics + * for guide/grid snapping. + */ + +/* FIXME: move this somewhere else, perhaps */ +static double round_to_nearest_multiple_plus(double x, double const c1, double const c0) +{ + return floor((x - c0) / c1 + .5) * c1 + c0; +} + +CanvasAxonomGridSnapper::CanvasAxonomGridSnapper(CanvasAxonomGrid *grid, SPNamedView const *nv, NR::Coord const d) : LineSnapper(nv, d) +{ + this->grid = grid; +} + +LineSnapper::LineList +CanvasAxonomGridSnapper::_getSnapLines(NR::Point const &p) const +{ + LineList s; + + if ( grid == NULL ) { + return s; + } + + for (unsigned int i = 0; i < 2; ++i) { + + /* This is to make sure we snap to only visible grid lines */ + double scaled_spacing = grid->sw[i]; // this is spacing of visible lines if screen pixels + + // convert screen pixels to px + // FIXME: after we switch to snapping dist in screen pixels, this will be unnecessary + if (SP_ACTIVE_DESKTOP) { + scaled_spacing /= SP_ACTIVE_DESKTOP->current_zoom(); + } + + NR::Coord const rounded = round_to_nearest_multiple_plus(p[i], + scaled_spacing, + grid->origin[i]); + + s.push_back(std::make_pair(NR::Dim2(i), rounded)); + } + + return s; +} + + +}; // namespace Inkscape + + +/* + Local Variables: + mode:c++ + c-file-style:"stroustrup" + c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) + indent-tabs-mode:nil + fill-column:99 + End: +*/ +// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :