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15 * $Source: /cvs/cvsroot/d2x/main/editor/editor.h,v $
18 * $Date: 2004-12-19 10:58:39 $
20 * FIXME: put description here
22 * $Log: not supported by cvs2svn $
23 * Revision 1.2 2001/10/25 02:19:32 bradleyb
24 * conditionalize including multi.h and network.h, fix backslashes, fix compiler errors with EDITOR
43 #define ORTHO_VIEWS 0 // set to 1 to enable 3 orthogonal views
44 #define ED_SCREEN_W 800 //width of editor screen
45 #define ED_SCREEN_H 600 //height of editor screen
49 #define GAMEVIEW_X 1 //where the 320x200 game window goes
50 #define GAMEVIEW_Y 1+MENUBAR_H
51 #define GAMEVIEW_W 320
52 #define GAMEVIEW_H 200
56 #define STATUS_Y (ED_SCREEN_H-STATUS_H)
57 #define STATUS_W ED_SCREEN_W
59 #define LVIEW_X 1 //large view
60 #define LVIEW_Y (GAMEVIEW_Y+GAMEVIEW_H+2)
62 #define LVIEW_H (STATUS_Y-LVIEW_Y-2)
64 #define TMAPBOX_X (LVIEW_X+LVIEW_W+4) //location of first one
65 #define TMAPBOX_Y (LVIEW_Y+2)
69 #define TMAPCURBOX_X (TMAPBOX_X + 4*(TMAPBOX_W + 3))
70 #define TMAPCURBOX_Y (TMAPBOX_Y + TMAPBOX_H)
72 #define OBJCURBOX_X (TMAPCURBOX_X)
73 #define OBJCURBOX_Y (TMAPCURBOX_Y + 3*(TMAPBOX_H + 2) -40)
75 #define PAD_X (GAMEVIEW_X + GAMEVIEW_W + 16)
76 #define PAD_Y (GAMEVIEW_Y + 4)
78 #define SMALLVIEW_W 173 //width of small view windows
79 #define SMALLVIEW_H 148 //height of small view windows
81 #define TVIEW_X (LVIEW_X+LVIEW_W+2) //top view
82 #define TVIEW_Y LVIEW_Y
83 #define TVIEW_W SMALLVIEW_W
84 #define TVIEW_H SMALLVIEW_H
86 #define FVIEW_X TVIEW_X //front view
87 #define FVIEW_Y (TVIEW_Y+SMALLVIEW_H+2)
88 #define FVIEW_W SMALLVIEW_W
89 #define FVIEW_H SMALLVIEW_H
91 #define RVIEW_X (TVIEW_X+SMALLVIEW_W+2) //right view
92 #define RVIEW_Y FVIEW_Y
93 #define RVIEW_W SMALLVIEW_W
94 #define RVIEW_H SMALLVIEW_H
96 #define GVIEW_X RVIEW_X //group view
97 #define GVIEW_Y TVIEW_Y
98 #define GVIEW_W SMALLVIEW_W
99 #define GVIEW_H SMALLVIEW_H
101 //there were color constants here, but I moved them to meddraw.c - Matt
103 #define SEGMOVE_PAD_ID 0
104 #define SEGSIZE_PAD_ID 1
105 #define CURVE_PAD_ID 2
106 #define TEXTURE_PAD_ID 3
107 #define OBJECT_PAD_ID 4
108 #define OBJMOV_PAD_ID 5
109 #define GROUP_PAD_ID 6
110 #define LIGHTING_PAD_ID 7
111 #define TEST_PAD_ID 8
122 // Default size of a segment
123 #define DEFAULT_X_SIZE F1_0*20
124 #define DEFAULT_Y_SIZE F1_0*20
125 #define DEFAULT_Z_SIZE F1_0*20
127 // Scale factor from 3d units (integer portion) to uv coordinates (integer portion)
128 #define VMAG (F1_0 / (DEFAULT_X_SIZE/F1_0))
129 #define UMAG VMAG // unused
131 // Number of segments which can be found (size of Found_segs[])
132 #define MAX_FOUND_SEGS 200
133 #define MAX_SELECTED_SEGS (MAX_SEGMENTS)
134 #define MAX_WARNING_SEGS (MAX_SEGMENTS)
136 #define MAX_GROUPS 10
137 #define ROT_GROUP MAX_GROUPS
139 // Modes for segment sizing
140 #define SEGSIZEMODE_FREE 1
141 #define SEGSIZEMODE_ALL 2
142 #define SEGSIZEMODE_CURSIDE 3
143 #define SEGSIZEMODE_EDGE 4
144 #define SEGSIZEMODE_VERTEX 5
146 #define SEGSIZEMODE_MIN SEGSIZEMODE_FREE
147 #define SEGSIZEMODE_MAX SEGSIZEMODE_VERTEX
149 //defines a view for an editor window
150 typedef struct editor_view {
151 short ev_num; //each view has it's own number
152 short ev_changed; //set to true if view changed
153 grs_canvas *ev_canv; //points to this window's canvas
154 fix ev_dist; //the distance from the view point
155 vms_matrix ev_matrix; //the view matrix
156 fix ev_zoom; //zoom for this window
164 extern editor_view *Views[];
166 extern grs_canvas *canv_offscreen; //for off-screen rendering
167 extern int Large_view_index;
168 extern UI_GADGET_USERBOX * LargeViewBox;
169 extern int Found_seg_index; // Index in Found_segs corresponding to Cursegp
170 extern int gamestate_not_restored;
173 extern segment *Cursegp; // Pointer to current segment in the mine, the one to which things happen.
174 extern vms_vector Ed_view_target; // what editor is looking at
176 // -- extern segment New_segment; // The segment which can be added to the mine.
177 #define New_segment (Segments[MAX_SEGMENTS-1])
179 extern int Curside; // Side index in 0..MAX_SIDES_PER_SEGMENT of active side.
180 extern int Curedge; // Current edge on current side, in 0..3
181 extern int Curvert; // Current vertex on current side, in 0..3
182 extern int AttachSide; // Side on segment to attach
183 extern int Draw_all_segments; // Set to 1 means draw_world draws all segments in Segments, else draw only connected segments
184 extern segment *Markedsegp; // Marked segment, used in conjunction with *Cursegp to form joints.
185 extern int Markedside; // Marked side on Markedsegp.
186 extern sbyte Vertex_active[MAX_VERTICES]; // !0 means vertex is in use, 0 means not in use.
188 extern grs_canvas *Pad_text_canvas; // Keypad text
190 // The extra group in the following arrays is used for group rotation.
191 extern group GroupList[MAX_GROUPS+1];
192 extern segment *Groupsegp[MAX_GROUPS+1];
193 extern int Groupside[MAX_GROUPS+1];
194 extern int current_group;
195 extern int num_groups;
196 extern int Current_group;
198 extern short Found_segs[]; // List of segment numbers "found" under cursor click
199 extern int N_found_segs; // Number of segments found at Found_segs
201 extern int N_selected_segs; // Number of segments found at Selected_segs
202 extern short Selected_segs[]; // List of segment numbers currently selected
204 extern int N_warning_segs; // Number of segments warning-worthy, such as a concave segment
205 extern short Warning_segs[]; // List of warning-worthy segments
207 extern int Show_axes_flag; // 0 = don't show, !0 = do show coordinate axes in *Cursegp orientation
209 extern int Autosave_count; // Current counter for which autosave mine we are "on"
210 extern int Autosave_flag; // Whether or not Autosave is on.
211 extern struct tm Editor_time_of_day;
213 extern int SegSizeMode; // Mode = 0/1 = not/is legal to move bound vertices,
215 void init_editor(void);
217 void close_editor(void);
218 void init_editor_screen(void);
220 // Returns true if vertex vi is contained in exactly one segment, else returns false.
221 extern int is_free_vertex(int vi);
223 // Set existing vertex vnum to value *vp.
224 extern int med_set_vertex(int vnum,vms_vector *vp);
226 extern void med_combine_duplicate_vertices(sbyte *vlp);
228 // Attach side newside of newseg to side destside of destseg.
229 // Copies *newseg into global array Segments, increments Num_segments.
230 // Forms a weld between the two segments by making the new segment fit to the old segment.
231 // Updates number of faces per side if necessitated by new vertex coordinates.
233 // 0 = successful attach
234 // 1 = No room in Segments[].
235 // 2 = No room in Vertices[].
236 extern int med_attach_segment(segment *destseg, segment *newseg, int destside, int newside);
239 // Deletes a segment from the global array Segments.
240 // Updates Cursegp to be the segment to which the deleted segment was connected. If there is
241 // more than one connected segment, the new Cursegp will be the segment with the highest index
242 // of connection in the deleted segment (highest index = front)
244 // 0 = successful deletion
245 // 1 = unable to delete
246 extern int med_delete_segment(segment *sp);
248 // Rotate the segment *seg by the pitch, bank, heading defined by *rot, destructively
249 // modifying its four free vertices in the global array Vertices.
250 // It is illegal to rotate a segment which has MAX_SIDES_PER_SEGMENT != 1.
251 // Pitch, bank, heading are about the point which is the average of the four points
252 // forming the side of connection.
254 // 0 = successful rotation
255 // 1 = MAX_SIDES_PER_SEGMENT makes rotation illegal (connected to 0 or 2+ segments)
256 // 2 = Rotation causes degeneracy, such as self-intersecting segment.
257 extern int med_rotate_segment(segment *seg, vms_matrix *rotmat);
258 extern int med_rotate_segment_ang(segment *seg, vms_angvec *ang);
260 // Scales a segment, destructively modifying vertex coordinates in global Vertices[].
261 // Uses scale factor in sp->scale.
262 // Modifies only free vertices (those which are not part of a segment other than *sp).
263 // The vector *svp contains the x,y,z scale factors. The x,y,z directions are relative
264 // to the segment. x scales in the dimension of the right vector, y of the up vector, z of the forward vector.
265 // The dimension of the vectors is determined by averaging appropriate sets of 4 of the 8 points.
266 extern void med_scale_segment(segment *sp);
268 // Loads mine *name from disk, updating global variables:
269 // Segments, Vertices
270 // Num_segments,Num_vertices
271 // Cursegp = pointer to active segment. Written as an index in med_save_mine, converted to a pointer
274 // 0 = successfully loaded.
275 // 1 = unable to load.
276 extern int med_load_mine(char *name);
278 // Loads game *name from disk.
279 // This function automatically loads mine with name.MIN
280 extern int med_load_game(char *name);
283 // Loads a previous generation mine. Needs to be updated in code.
284 extern int med_load_pmine(char *name);
286 // Saves mine contained in Segments[] and Vertices[].
287 // Num_segments = number of segments in mine.
288 // Num_vertices = number of vertices in mine.
289 // Cursegp = current segment.
290 // Saves Num_segments, and index of current segment (which is Cursegp - Segments), which will be converted to a pointer
291 // and written to Cursegp in med_load_mine.
293 // 0 = successfully saved.
294 // 1 = unable to save.
295 extern int med_save_mine(char *name);
297 // Loads group *filename from disk.
298 // Adds group to global Segments and Vertices array.
300 // 0 = successfully loaded.
301 // 1 = unable to load.
302 extern int med_load_group( char *filename, short *vertex_ids, short *segment_ids, int *num_vertices, int *num_segments);
304 // Saves group *filename from disk.
305 // Saves group defined by vertex_ids and segment_ids to disk.
307 // 0 = successfully saved.
308 // 1 = unable to save.
309 extern int med_save_group( char *filename, short *vertex_ids, short *segment_ids, int num_vertices, int num_segments);
311 // Updates the screen... (I put the prototype here for curves.c)
312 extern int medlisp_update_screen();
314 // Returns 0 if no error, 1 if error, whatever that might be.
318 // Cursegp = pointer to only segment.
319 extern int create_new_mine(void);
321 // extern void med_create_segment(segment *sp, vms_vector *scale);
322 extern void old_med_attach_segment(segment *sp,int main_side,int branch_side,fix cx, fix cy, fix cz, fix length, fix width, fix height, vms_matrix *mp);
324 // Copy a segment from *ssp to *dsp. Do not simply copy the struct. Use *dsp's vertices, copying in
325 // just the values, not the indices.
326 extern void med_copy_segment(segment *dsp,segment *ssp);
328 // Create a default segment.
329 // Useful for when user creates a garbage segment.
330 extern void med_create_default_segment(segment *sp);
332 // Create New_segment with sizes found in *scale.
333 extern void med_create_new_segment(vms_vector *scale);
335 // Create New_segment with sizes found in Cursegp.
336 extern void med_create_new_segment_from_cursegp(void);
338 // Update New_segment using scale factors.
339 extern void med_update_new_segment(void);
341 // Replace *sp with New_segment.
342 extern void med_update_segment(segment *sp);
344 // Create a new segment and use it to form a bridge between two existing segments.
345 // Specify two segment:side pairs. If either segment:side is not open (ie, segment->children[side] != -1)
346 // then it is not legal to form the brider.
348 // 0 bridge segment formed
349 // 1 unable to form bridge because one (or both) of the sides is not open.
350 // Note that no new vertices are created by this process.
351 extern int med_form_bridge_segment(segment *seg1, int side1, segment *seg2, int side2);
353 // Compress mine at Segments and Vertices by squeezing out all holes.
354 // If no holes (ie, an unused segment followed by a used segment), then no action.
355 // If Cursegp or Markedsegp is a segment which gets moved to fill in a hole, then
356 // they are properly updated.
357 extern void med_compress_mine(void);
359 // Extract the forward vector from segment *sp, return in *vp.
360 // The forward vector is defined to be the vector from the the center of the front face of the segment
361 // to the center of the back face of the segment.
362 extern void med_extract_forward_vector_from_segment(segment *sp,vms_vector *vp);
364 // Extract the right vector from segment *sp, return in *vp.
365 // The forward vector is defined to be the vector from the the center of the left face of the segment
366 // to the center of the right face of the segment.
367 extern void med_extract_right_vector_from_segment(segment *sp,vms_vector *vp);
369 // Extract the up vector from segment *sp, return in *vp.
370 // The forward vector is defined to be the vector from the the center of the bottom face of the segment
371 // to the center of the top face of the segment.
372 extern void med_extract_up_vector_from_segment(segment *sp,vms_vector *vp);
374 // Compute the center point of a side of a segment.
375 // The center point is defined to be the average of the 4 points defining the side.
376 extern void med_compute_center_point_on_side(vms_vector *vp,segment *sp,int side);
378 extern void set_matrix_based_on_side(vms_matrix *rotmat,int destside);
380 // Given a forward vector, compute and return an angvec triple.
381 // [ THIS SHOULD BE MOVED TO THE VECTOR MATRIX LIBRARY ]
382 extern vms_angvec *vm_vec_to_angles(vms_angvec *result, vms_vector *forvec);
387 #define ACCURACY 0.1*F1_0
389 typedef struct vms_equation {
391 struct {fix x3, x2, x1, x0, y3, y2, y1, y0, z3, z2, z1, z0;};
396 extern void create_curve(vms_vector *p1, vms_vector *p4, vms_vector *r1, vms_vector *r4, vms_equation *coeffs);
397 // Q(t) = (2t^3 - 3t^2 + 1) p1 + (-2t^3 + 3t^2) p4 + (t^3 - 2t^2 + t) r1 + (t^3 - t^2 ) r4
399 extern vms_vector evaluate_curve(vms_equation *coeffs, int degree, fix t);
401 extern fix curve_dist(vms_equation *coeffs, int degree, fix t0, vms_vector *p0, fix dist);
403 extern void curve_dir(vms_equation *coeffs, int degree, fix t0, vms_vector *dir);
405 extern void plot_parametric(vms_equation *coeffs, fix min_t, fix max_t, fix del_t);
407 // Curve generation routine.
408 // Returns 1 if curve is generated.
409 // Returns 0 if no curve.
410 extern int generate_curve( fix r1scale, fix r4scale );
412 // Deletes existing curve generated in generate_curve().
413 extern void delete_curve();
415 // --- // -- Temporary function, identical to med_rotate_segment, but it takes a vector instead of an angvec
416 // --- extern int med_rotate_segment_vec(segment *seg, vms_vector *vec);
418 extern void med_extract_matrix_from_segment(segment *sp,vms_matrix *rotmat);
420 // Assign default u,v coordinates to all sides of a segment.
421 // This routine should only be used for segments which are not connected to anything else,
422 // ie the segment created at mine creation.
423 extern void assign_default_uvs_to_segment(segment *segp);
424 extern void assign_default_uvs_to_side(segment *segp, int side);
426 extern void assign_default_uvs_to_side(segment *segp,int side);
428 // Assign u,v coordinates to con_seg, con_common_side from base_seg, base_common_side
429 // They are connected at the edge defined by the vertices abs_id1, abs_id2.
430 extern void med_assign_uvs_to_side(segment *con_seg, int con_common_side, segment *base_seg, int base_common_side, int abs_id1, int abs_id2);
432 // Debug -- show a matrix.
433 // type: 0 --> mprintf, 1 --> printf
434 // *s = string to display
435 // *mp = matrix to display
436 extern void show_matrix(char *s,vms_matrix *mp,int type);
438 // Create coordinate axes in orientation of specified segment, stores vertices at *vp.
439 extern void create_coordinate_axes_from_segment(segment *sp,short *vertnums);
441 // Scale a segment. Then, if it is connected to something, rotate it.
442 extern int med_scale_and_rotate_segment(segment *seg, vms_angvec *rot);
444 // Set Vertex_active to number of occurrences of each vertex.
446 extern void set_vertex_counts(void);
448 // Modify seg2 to share side2 with seg1:side1. This forms a connection between
449 // two segments without creating a new segment. It modifies seg2 by sharing
450 // vertices from seg1. seg1 is not modified. Four vertices from seg2 are
452 // If the four vertices forming side2 in seg2 are not free, the joint is not formed.
455 // 1 unable to form joint because one or more vertices of side2 is not free
456 // 2 unable to form joint because side1 is already used
457 extern int med_form_joint(segment *seg1, int side1, segment *seg2, int side2);
459 // The current texture... use by saying something=bm_lock_bitmap(CurrentTexture)
460 extern int CurrentTexture;
462 extern void compute_segment_center(vms_vector *vp,segment *sp);
464 extern void med_propagate_tmaps_to_segments(segment *base_seg,segment *con_seg, int uv_only_flag);
466 extern void med_propagate_tmaps_to_back_side(segment *base_seg, int back_side, int uv_only_flag);
468 extern void med_propagate_tmaps_to_any_side(segment *base_seg, int back_side, int tmap_num, int uv_only_flag);
470 // Find segment adjacent to sp:side.
471 // Adjacent means a segment which shares all four vertices.
472 // Return true if segment found and fill in segment in adj_sp and side in adj_side.
473 // Return false if unable to find, in which case adj_sp and adj_side are undefined.
474 extern int med_find_adjacent_segment_side(segment *sp, int side, segment **adj_sp, int *adj_side);
476 // Finds the closest segment and side to sp:side.
477 extern int med_find_closest_threshold_segment_side(segment *sp, int side, segment **adj_sp, int *adj_side, fix threshold);
479 // Given two segments, return the side index in the connecting segment which connects to the base segment
480 extern int find_connect_side(segment *base_seg, segment *con_seg);
482 // Select previous segment.
483 // If there is a connection on the side opposite to the current side, then choose that segment.
484 // If there is no connecting segment on the opposite face, try any segment.
485 extern void get_previous_segment(int curseg_num, int curside,int *newseg_num, int *newside);
487 // Select next segment.
488 // If there is a connection on the current side, then choose that segment.
489 // If there is no connecting segment on the current side, try any segment.
490 extern void get_next_segment(int curseg_num, int curside, int *newseg_num, int *newside);
492 // Copy texture maps in newseg to nsp.
493 extern void copy_uvs_seg_to_seg(segment *nsp,segment *newseg);
495 // Return true if segment is concave.
496 extern int check_seg_concavity(segment *s);
498 // Return N_found_segs = number of concave segments in mine.
499 // Segment ids stored at Found_segs
500 extern void find_concave_segs(void);
502 // High level call. Check for concave segments, print warning message (using editor_status)
503 // if any concave segments.
504 // Calls find_concave_segs, therefore N_found_segs gets set, and Found_segs filled in.
505 extern void warn_if_concave_segments(void);
507 // Warn if segment s is concave.
508 extern void warn_if_concave_segment(segment *s);
510 // Add a vertex to the vertex list.
511 extern int med_add_vertex(vms_vector *vp);
513 // Add a vertex to the vertex list which may be identical to another vertex (in terms of coordinates).
514 // Don't scan list, looking for presence of a vertex with same coords, add this one.
515 extern int med_create_duplicate_vertex(vms_vector *vp);
517 // Create a new segment, duplicating exactly, including vertex ids and children, the passed segment.
518 extern int med_create_duplicate_segment(segment *sp);
520 // Returns the index of a free segment.
521 // Scans the Segments array.
522 extern int get_free_segment_number(void);
524 // Diagnostic message.
525 extern void diagnostic_message(const char *format, ... );
528 extern void print_status_icon( char icon[1], int position );
529 extern void clear_status_icon( char icon[1], int position );
531 // Editor status message.
532 extern void editor_status(const char *format, ... );
534 // Variables in editor.c that the k*.c files need
536 #define UF_NONE 0x000 //nothing has changed
537 #define UF_WORLD_CHANGED 0x001 //something added or deleted
538 #define UF_VIEWPOINT_MOVED 0x002 //what we're watching has moved
540 #define UF_GAME_VIEW_CHANGED 0x004 //the game window changed
541 #define UF_ED_STATE_CHANGED 0x008 //something like curside,curseg changed
543 #define UF_ALL 0xffffffff //all flags
545 extern uint Update_flags;
546 extern int Funky_chase_mode;
547 extern vms_angvec Seg_orientation;
548 extern vms_vector Seg_scale;
549 extern int mine_changed;
551 extern editor_view *current_view;
553 //the view for the different windows
554 extern editor_view LargeView;
555 extern editor_view TopView;
556 extern editor_view FrontView;
557 extern editor_view RightView;
559 extern void set_view_target_from_segment(segment *sp);
560 extern int SafetyCheck();
562 extern void editor_status( const char *format, ...);
564 extern int MacroNumEvents;
565 extern int MacroStatus;
567 //extern int Highest_vertex_index; // Highest index in Vertices and Vertex_active, an efficiency hack
568 //extern int Highest_segment_index; // Highest index in Segments, an efficiency hack
569 extern int Lock_view_to_cursegp; // !0 means whenever cursegp changes, view it
572 extern int Num_tilings; // number of tilings/wall
573 extern int Degenerate_segment_found;
575 extern sbyte Been_visited[]; // List of segments visited in a recursive search, if element n set, segment n done been visited
577 // Initializes autosave system.
578 // Sets global Autosave_count to 0.
579 extern void init_autosave(void);
581 // Closes autosave system.
582 // Deletes all autosaved files.
583 extern void close_autosave(void);
585 // Saves current mine to name.miX where name = suffix of mine name and X = Autosave_count.
586 // For example, if name = "cookie.min", and Autosave_count = 3, then writes "cookie.mi3".
587 // Increments Autosave_count, wrapping from 9 to 0.
588 // (If there is no current mine name, assume "temp.min")
589 // Call med_save_mine to save the mine.
590 extern void autosave_mine(char *name);
593 extern void TimedAutosave(char *name);
594 extern void set_editor_time_of_day();
597 extern int undo(void);
598 extern char mine_filename[128];
599 extern char undo_status[10][100];
602 int AttachSegmentNewAng(vms_angvec *pbh);
603 int RotateSegmentNew(vms_angvec *pbh);
604 int rotate_segment_new(vms_angvec *pbh);
606 //get & free vertices
608 void free_vert(int vert_num);
610 // The current robot type declared in eglobal.c
611 extern int Cur_robot_type;
614 extern int DisplayCurrentRobotType(void);
615 extern short Cur_object_index;
617 extern int render_3d_in_big_window;
618 extern void move_object_to_mouse_click(void);
620 //these are instances of canvases, pointed to by variables below
621 extern grs_canvas _canv_editor_game; //the game on the editor screen
623 //these are pointers to our canvases
624 extern grs_canvas *Canv_editor; //the editor screen
625 extern grs_canvas *Canv_editor_game; //the game on the editor screen
627 extern grs_canvas *canv_offscreen; //for off-screen rendering
628 extern grs_canvas *Pad_text_canvas; // Keypad text
630 //where the editor is looking
631 extern vms_vector Ed_view_target;
633 extern int gamestate_not_restored;
635 extern UI_WINDOW * EditorWindow;
637 extern int Large_view_index;
639 extern UI_GADGET_USERBOX * GameViewBox;
640 extern UI_GADGET_USERBOX * LargeViewBox;
641 extern UI_GADGET_USERBOX * GroupViewBox;
643 extern void med_point_2_vec(grs_canvas *canv,vms_vector *v,short sx,short sy);
645 //shutdown ui on the editor screen
646 void close_editor_screen(void);
649 extern int place_object(segment *segp, vms_vector *object_pos, int object_type);
652 extern void med_extract_up_vector_from_segment_side(segment *sp, int sidenum, vms_vector *vp);
653 extern void med_extract_right_vector_from_segment_side(segment *sp, int sidenum, vms_vector *vp);
654 extern void med_extract_forward_vector_from_segment_side(segment *sp, int sidenum, vms_vector *vp);
657 extern void draw_world_from_game(void);
660 extern void close_all_windows(void);
664 // Amount to stretch a texture map by.
665 // The two different ones are for the two dimensions of a texture map.
666 extern fix Stretch_scale_x, Stretch_scale_y;