ref: 29eaa8f55c7b9cc960afa4327a7ce977e6637e9c
dir: /printing.c/
/* * printing.c: Cross-platform printing manager. Handles document * setup and layout. */ #include <assert.h> #include "puzzles.h" struct puzzle { const game *game; game_params *par; game_ui *ui; game_state *st; game_state *st2; }; struct document { int pw, ph; int npuzzles; struct puzzle *puzzles; int puzzlesize; bool got_solns; float *colwid, *rowht; float userscale; }; /* * Create a new print document. pw and ph are the layout * parameters: they state how many puzzles will be printed across * the page, and down the page. */ document *document_new(int pw, int ph, float userscale) { document *doc = snew(document); doc->pw = pw; doc->ph = ph; doc->puzzles = NULL; doc->puzzlesize = doc->npuzzles = 0; doc->got_solns = false; doc->colwid = snewn(pw, float); doc->rowht = snewn(ph, float); doc->userscale = userscale; return doc; } /* * Free a document structure, whether it's been printed or not. */ void document_free(document *doc) { int i; for (i = 0; i < doc->npuzzles; i++) { doc->puzzles[i].game->free_params(doc->puzzles[i].par); doc->puzzles[i].game->free_ui(doc->puzzles[i].ui); doc->puzzles[i].game->free_game(doc->puzzles[i].st); if (doc->puzzles[i].st2) doc->puzzles[i].game->free_game(doc->puzzles[i].st2); } sfree(doc->colwid); sfree(doc->rowht); sfree(doc->puzzles); sfree(doc); } /* * Called from midend.c to add a puzzle to be printed. Provides a * game_params (for initial layout computation), a game_state, and * optionally a second game_state to be printed in parallel on * another sheet (typically the solution to the first game_state). */ void document_add_puzzle(document *doc, const game *game, game_params *par, game_ui *ui, game_state *st, game_state *st2) { if (doc->npuzzles >= doc->puzzlesize) { doc->puzzlesize += 32; doc->puzzles = sresize(doc->puzzles, doc->puzzlesize, struct puzzle); } doc->puzzles[doc->npuzzles].game = game; doc->puzzles[doc->npuzzles].par = par; doc->puzzles[doc->npuzzles].ui = ui; doc->puzzles[doc->npuzzles].st = st; doc->puzzles[doc->npuzzles].st2 = st2; doc->npuzzles++; if (st2) doc->got_solns = true; } static void get_puzzle_size(const document *doc, struct puzzle *pz, float *w, float *h, float *scale) { float ww, hh, ourscale; /* Get the preferred size of the game, in mm. */ { game_ui *ui = pz->game->new_ui(pz->st); pz->game->print_size(pz->par, ui, &ww, &hh); pz->game->free_ui(ui); } /* Adjust for user-supplied scale factor. */ ourscale = doc->userscale; /* * FIXME: scale it down here if it's too big for the page size. * Rather than do complicated things involving scaling all * columns down in proportion, the simplest approach seems to * me to be to scale down until the game fits within one evenly * divided cell of the page (i.e. width/pw by height/ph). * * In order to do this step we need the page size available. */ *scale = ourscale; *w = ww * ourscale; *h = hh * ourscale; } /* * Calculate the the number of pages for a document. */ int document_npages(const document *doc) { int ppp; /* puzzles per page */ int pages, passes; ppp = doc->pw * doc->ph; pages = (doc->npuzzles + ppp - 1) / ppp; passes = (doc->got_solns ? 2 : 1); return pages * passes; } /* * Begin a document. */ void document_begin(const document *doc, drawing *dr) { print_begin_doc(dr, document_npages(doc)); } /* * End a document. */ void document_end(const document *doc, drawing *dr) { print_end_doc(dr); } /* * Print a single page of a document. */ void document_print_page(const document *doc, drawing *dr, int page_nr) { int ppp; /* puzzles per page */ int pages; int page, pass; int pageno; int i, n, offset; float colsum, rowsum; ppp = doc->pw * doc->ph; pages = (doc->npuzzles + ppp - 1) / ppp; /* Get the current page, pass, and pageno based on page_nr. */ if (page_nr < pages) { page = page_nr; pass = 0; } else { assert(doc->got_solns); page = page_nr - pages; pass = 1; } pageno = page_nr + 1; offset = page * ppp; n = min(ppp, doc->npuzzles - offset); print_begin_page(dr, pageno); for (i = 0; i < doc->pw; i++) doc->colwid[i] = 0; for (i = 0; i < doc->ph; i++) doc->rowht[i] = 0; /* * Lay the page out by computing all the puzzle sizes. */ for (i = 0; i < n; i++) { struct puzzle *pz = doc->puzzles + offset + i; int x = i % doc->pw, y = i / doc->pw; float w, h, scale; get_puzzle_size(doc, pz, &w, &h, &scale); /* Update the maximum width/height of this column. */ doc->colwid[x] = max(doc->colwid[x], w); doc->rowht[y] = max(doc->rowht[y], h); } /* * Add up the maximum column/row widths to get the * total amount of space used up by puzzles on the * page. We will use this to compute gutter widths. */ colsum = 0.0; for (i = 0; i < doc->pw; i++) colsum += doc->colwid[i]; rowsum = 0.0; for (i = 0; i < doc->ph; i++) rowsum += doc->rowht[i]; /* * Now do the printing. */ for (i = 0; i < n; i++) { struct puzzle *pz = doc->puzzles + offset + i; int x = i % doc->pw, y = i / doc->pw, j; float w, h, scale, xm, xc, ym, yc; int pixw, pixh, tilesize; if (pass == 1 && !pz->st2) continue; /* nothing to do */ /* * The total amount of gutter space is the page * width minus colsum. This is divided into pw+1 * gutters, so the amount of horizontal gutter * space appearing to the left of this puzzle * column is * * (width-colsum) * (x+1)/(pw+1) * = width * (x+1)/(pw+1) - (colsum * (x+1)/(pw+1)) */ xm = (float)(x+1) / (doc->pw + 1); xc = -xm * colsum; /* And similarly for y. */ ym = (float)(y+1) / (doc->ph + 1); yc = -ym * rowsum; /* * However, the amount of space to the left of this * puzzle isn't just gutter space: we must also * count the widths of all the previous columns. */ for (j = 0; j < x; j++) xc += doc->colwid[j]; /* And similarly for rows. */ for (j = 0; j < y; j++) yc += doc->rowht[j]; /* * Now we adjust for this _specific_ puzzle, which * means centring it within the cell we've just * computed. */ get_puzzle_size(doc, pz, &w, &h, &scale); xc += (doc->colwid[x] - w) / 2; yc += (doc->rowht[y] - h) / 2; /* * And now we know where and how big we want to * print the puzzle, just go ahead and do so. For * the moment I'll pick a standard pixel tile size * of 512. * * (FIXME: would it be better to pick this value * with reference to the printer resolution? Or * permit each game to choose its own?) */ tilesize = 512; pz->game->compute_size(pz->par, tilesize, pz->ui, &pixw, &pixh); print_begin_puzzle(dr, xm, xc, ym, yc, pixw, pixh, w, scale); pz->game->print(dr, pass == 0 ? pz->st : pz->st2, pz->ui, tilesize); print_end_puzzle(dr); } print_end_page(dr, pageno); } /* * Having accumulated a load of puzzles, actually do the printing. */ void document_print(const document *doc, drawing *dr) { int page, pages; pages = document_npages(doc); print_begin_doc(dr, pages); for (page = 0; page < pages; page++) document_print_page(doc, dr, page); print_end_doc(dr); }