nuclear@1: #include <stdio.h>
nuclear@1: #include <string.h>
nuclear@5: #include <errno.h>
nuclear@1: #include "opengl.h"
nuclear@1: #include "level.h"
nuclear@1: #include "tile.h"
nuclear@5: #include "tileset.h"
nuclear@1: 
nuclear@1: Level::Level()
nuclear@1: {
nuclear@1: 	cell_size = 1.0;
nuclear@1: 
nuclear@1: 	cells = 0;
nuclear@1: 	xsz = ysz = 0;
nuclear@1: }
nuclear@1: 
nuclear@1: Level::~Level()
nuclear@1: {
nuclear@1: 	delete [] cells;
nuclear@1: }
nuclear@1: 
nuclear@1: bool Level::load(const char *fname)
nuclear@1: {
nuclear@5: 	if(!fname) {
nuclear@5: 		return false;
nuclear@5: 	}
nuclear@5: 
nuclear@5: 	TileSet *tileset = get_active_tileset();
nuclear@5: 	if(!tileset) {
nuclear@5: 		fprintf(stderr, "level loading failed: no active tileset\n");
nuclear@5: 		return false;
nuclear@5: 	}
nuclear@5: 	Tile *deftile = tileset->get_tile("default");
nuclear@5: 	if(!deftile) {
nuclear@5: 		fprintf(stderr, "level loading failed: active tileset has no default tile\n");
nuclear@5: 		return false;
nuclear@5: 	}
nuclear@5: 
nuclear@5: 	FILE *fp = fopen(fname, "r");
nuclear@5: 	if(!fp) {
nuclear@5: 		fprintf(stderr, "failed to open level: %s: %s\n", fname, strerror(errno));
nuclear@5: 		return false;
nuclear@5: 	}
nuclear@5: 
nuclear@5: 	char buf[512];
nuclear@5: 	fgets(buf, sizeof buf, fp);
nuclear@5: 	if(sscanf(buf, "SIZE %dx%d", &xsz, &ysz) != 2) {
nuclear@5: 		fprintf(stderr, "invalid or corrupt level file: %s\n", fname);
nuclear@5: 		fclose(fp);
nuclear@5: 		return false;
nuclear@5: 	}
nuclear@5: 	printf("level size: %dx%d\n", xsz, ysz);
nuclear@1: 
nuclear@1: 	cells = new GridCell*[xsz * ysz];
nuclear@1: 	memset(cells, 0, xsz * ysz * sizeof *cells);
nuclear@1: 
nuclear@5: 	int y = 0;
nuclear@5: 	GridCell **grid_row = cells;
nuclear@5: 
nuclear@5: 	while(fgets(buf, sizeof buf, fp)) {
nuclear@5: 		for(int i=0; i<xsz; i++) {
nuclear@5: 			if(!buf[i] || buf[i] == '\r' || buf[i] == '\n') {
nuclear@5: 				grid_row += xsz - i;
nuclear@5: 				break;
nuclear@5: 			}
nuclear@5: 
nuclear@5: 			if(isalpha(buf[i]) || buf[i] == ' ') {
nuclear@5: 				*grid_row = new GridCell(deftile);
nuclear@5: 			}
nuclear@5: 			grid_row++;
nuclear@5: 		}
nuclear@5: 
nuclear@5: 		if(++y >= ysz) {
nuclear@5: 			break;
nuclear@5: 		}
nuclear@5: 	}
nuclear@5: 	fclose(fp);
nuclear@1: 
nuclear@1: 	return true;
nuclear@1: }
nuclear@1: 
nuclear@1: bool Level::save(const char *fname) const
nuclear@1: {
nuclear@1: 	return false;
nuclear@1: }
nuclear@1: 
nuclear@1: const GridCell *Level::get_cell(int x, int y) const
nuclear@1: {
nuclear@1: 	if(x < 0 || x >= xsz || y < 0 || y >= ysz) {
nuclear@1: 		return 0;
nuclear@1: 	}
nuclear@1: 	return cells[y * xsz + x];
nuclear@1: }
nuclear@1: 
nuclear@1: Vector3 Level::get_cell_pos(int x, int y) const
nuclear@1: {
nuclear@1: 	float posx = (x - xsz / 2) * cell_size;
nuclear@1: 	float posy = (y - ysz / 2) * cell_size;
nuclear@1: 	return Vector3(posx, 0, posy);
nuclear@1: }
nuclear@1: 
nuclear@1: void Level::draw() const
nuclear@1: {
nuclear@1: 	glMatrixMode(GL_MODELVIEW);
nuclear@1: 
nuclear@1: 	draw_grid();
nuclear@1: 
nuclear@1: 	for(int i=0; i<ysz; i++) {
nuclear@1: 		for(int j=0; j<xsz; j++) {
nuclear@1: 			const GridCell *cell = get_cell(j, i);
nuclear@1: 			if(cell) {
nuclear@1: 				Vector3 pos = get_cell_pos(j, i);
nuclear@1: 				glPushMatrix();
nuclear@1: 				glTranslatef(pos.x, pos.y, pos.z);
nuclear@1: 				glScalef(cell_size, cell_size, cell_size);
nuclear@5: 
nuclear@5: 				unsigned int dmask = 0;
nuclear@5: 				if(i <= 0 || get_cell(j, i - 1) == 0) {
nuclear@5: 					dmask |= TILE_NORTH;
nuclear@5: 				}
nuclear@5: 				if(i > ysz || get_cell(j, i + 1) == 0) {
nuclear@5: 					dmask |= TILE_SOUTH;
nuclear@5: 				}
nuclear@5: 				if(j <= 0 || get_cell(j - 1, i) == 0) {
nuclear@5: 					dmask |= TILE_WEST;
nuclear@5: 				}
nuclear@5: 				if(j > xsz || get_cell(j + 1, i) == 0) {
nuclear@5: 					dmask |= TILE_EAST;
nuclear@5: 				}
nuclear@5: 
nuclear@5: 				cell->draw(dmask);
nuclear@1: 				glPopMatrix();
nuclear@1: 			}
nuclear@1: 		}
nuclear@1: 	}
nuclear@1: }
nuclear@1: 
nuclear@1: void Level::draw_grid() const
nuclear@1: {
nuclear@1: 	float xlen = xsz * cell_size;
nuclear@1: 	float ylen = ysz * cell_size;
nuclear@1: 
nuclear@1: 	glPushAttrib(GL_ENABLE_BIT);
nuclear@1: 	glDisable(GL_LIGHTING);
nuclear@1: 
nuclear@1: 	glBegin(GL_LINES);
nuclear@1: 	glColor3f(0.4, 0.4, 0.4);
nuclear@1: 
nuclear@1: 	float y = -ylen / 2.0 - cell_size / 2.0;
nuclear@1: 	for(int i=0; i<ysz; i++) {
nuclear@1: 		glVertex3f(-xlen / 2.0, 0, y);
nuclear@1: 		glVertex3f(xlen / 2.0, 0, y);
nuclear@1: 		y += cell_size;
nuclear@1: 	}
nuclear@1: 
nuclear@1: 	float x = -xlen / 2.0 - cell_size / 2.0;
nuclear@1: 	for(int i=0; i<xsz; i++) {
nuclear@1: 		glVertex3f(x, 0, -ylen / 2.0);
nuclear@1: 		glVertex3f(x, 0, ylen / 2.0);
nuclear@1: 		x += cell_size;
nuclear@1: 	}
nuclear@1: 	glEnd();
nuclear@1: 
nuclear@1: 	glPopAttrib();
nuclear@1: }
nuclear@1: 
nuclear@5: 
nuclear@5: GridCell::GridCell(const Tile *tile)
nuclear@5: {
nuclear@5: 	if(tile) {
nuclear@5: 		tiles.push_back(tile);
nuclear@5: 	}
nuclear@5: }
nuclear@5: 
nuclear@1: void GridCell::add_tile(const Tile *tile)
nuclear@1: {
nuclear@1: 	tiles.push_back(tile);
nuclear@1: }
nuclear@1: 
nuclear@5: void GridCell::draw(unsigned int draw_mask) const
nuclear@1: {
nuclear@1: 	for(size_t i=0; i<tiles.size(); i++) {
nuclear@5: 		tiles[i]->draw(draw_mask);
nuclear@1: 	}
nuclear@1: }