diff options
Diffstat (limited to 'platform/winrt/mupdfwinrt/muctx.cpp')
-rw-r--r-- | platform/winrt/mupdfwinrt/muctx.cpp | 569 |
1 files changed, 569 insertions, 0 deletions
diff --git a/platform/winrt/mupdfwinrt/muctx.cpp b/platform/winrt/mupdfwinrt/muctx.cpp new file mode 100644 index 00000000..56c6f3a9 --- /dev/null +++ b/platform/winrt/mupdfwinrt/muctx.cpp @@ -0,0 +1,569 @@ +#pragma once + +#include "pch.h" +#include "muctx.h" + +/* This class interfaces to mupdf API with minimal windows objects + * (other than the file streaming stuff) */ + +/* File streaming set up for mupdf */ + +/* win_read_file etc. Reading of windows managed stream. This is + * not ideal as I have to read into a managed buffer and then transfer + * to the actual buffer I want. I would like a more direct approach. + * Alternate approach is to push this off outside the winrt and read + * from a memory buffer. */ +static int win_read_file(fz_stream *stm, unsigned char *buf, int len) +{ + void *temp = stm->state; + win_stream_struct *stream = reinterpret_cast <win_stream_struct*> (temp); + IRandomAccessStream^ Stream = stream->stream; + unsigned long long curr_pos = Stream->Position; + unsigned long long length = Stream->Size; + DataReader^ local_reader = ref new DataReader(Stream); + DataReaderLoadOperation^ result = local_reader->LoadAsync(len); + + /* Block on the Async call. This is not on the UI thread. */ + while(result->Status != AsyncStatus::Completed) { + + } + result->GetResults(); + int curr_len2 = local_reader->UnconsumedBufferLength; + if (curr_len2 < len) + len = curr_len2; + + Platform::Array<unsigned char>^ arrByte = ref new Platform::Array<unsigned char>(len); + local_reader->ReadBytes(arrByte); + + memcpy(buf, arrByte->Data, len); + local_reader->DetachStream(); + + return len; +} + +static void win_seek_file(fz_stream *stm, int offset, int whence) +{ + void *temp = stm->state; + win_stream_struct *stream = reinterpret_cast <win_stream_struct*> (temp); + IRandomAccessStream^ Stream = stream->stream; + unsigned long long curr_pos = Stream->Position; + unsigned long long length = Stream->Size; + unsigned long long n; + + if (whence == SEEK_END) + { + n = length + offset; + } + else if (whence == SEEK_CUR) + { + n = curr_pos + offset; + } + else if (whence == SEEK_SET) + { + n = offset; + } + Stream->Seek(n); + curr_pos = Stream->Position; + stm->pos = n; + stm->rp = stm->bp; + stm->wp = stm->bp; +} + +static void win_close_file(fz_context *ctx, void *state) +{ + win_stream_struct *win_stream = reinterpret_cast <win_stream_struct*> (state); + IRandomAccessStream^ stream = win_stream->stream; + delete stream; +} + +/* mutext functions see mupdf readme for details */ +static void lock_mutex(void *user, int lock) +{ + LPCRITICAL_SECTION locks = (LPCRITICAL_SECTION)user; + EnterCriticalSection(&locks[lock]); +} + +static void unlock_mutex(void *user, int lock) +{ + LPCRITICAL_SECTION locks = (LPCRITICAL_SECTION)user; + LeaveCriticalSection(&locks[lock]); +} + +void muctx::CleanUp(void) +{ + fz_free_outline(mu_ctx, mu_outline); + fz_close_document(mu_doc); + display_list_cache->Empty(mu_ctx); + fz_free_context(mu_ctx); + + delete display_list_cache; + display_list_cache = NULL; + this->mu_ctx = NULL; + this->mu_doc = NULL; + this->mu_outline = NULL; +} + +/* Set up the context, mutex and cookie */ +status_t muctx::InitializeContext() +{ + int i; + + /* Get the mutexes set up */ + for (i = 0; i < FZ_LOCK_MAX; i++) + InitializeCriticalSectionEx(&mu_criticalsec[i], 0, 0); + mu_locks.user = &mu_criticalsec[0]; + mu_locks.lock = lock_mutex; + mu_locks.unlock = unlock_mutex; + + /* Allocate the context */ + this->mu_ctx = fz_new_context(NULL, &mu_locks, FZ_STORE_DEFAULT); + if (this->mu_ctx == NULL) + { + return E_OUTOFMEM; + } + else + { + return S_ISOK; + } +} + +/* Initializer */ +muctx::muctx(void) +{ + mu_ctx = NULL; + mu_doc = NULL; + mu_outline = NULL; + display_list_cache = new Cache(); +} + +/* Destructor */ +muctx::~muctx(void) +{ + fz_free_outline(mu_ctx, mu_outline); + fz_close_document(mu_doc); + display_list_cache->Empty(mu_ctx); + fz_free_context(mu_ctx); + + mu_ctx = NULL; + mu_doc = NULL; + mu_outline = NULL; + delete display_list_cache; + display_list_cache = NULL; +} + +/* Set up the stream access */ +status_t muctx::InitializeStream(IRandomAccessStream^ readStream, char *ext) +{ + win_stream.stream = readStream; + fz_stream *mu_stream = fz_new_stream(mu_ctx, 0, win_read_file, win_close_file); + mu_stream->seek = win_seek_file; + mu_stream->state = reinterpret_cast <void*> (&win_stream); + + /* Now lets see if we can open the file */ + fz_try(mu_ctx) + { + mu_doc = fz_open_document_with_stream(mu_ctx, ext, mu_stream); + } + fz_always(mu_ctx) + { + fz_close(mu_stream); + } + fz_catch(mu_ctx) + { + return E_FAILURE; + } + return S_ISOK; +} + +/* Return the documents page count */ +int muctx::GetPageCount() +{ + if (this->mu_doc == NULL) + return -1; + else + return this->mu_doc->count_pages(this->mu_doc); +} + +/* Get page size */ +Point muctx::MeasurePage(int page_num) +{ + Point pageSize; + fz_rect rect; + fz_page *page; + fz_rect *bounds; + + page = fz_load_page(mu_doc, page_num); + bounds = fz_bound_page(mu_doc, page, &rect); + pageSize.X = bounds->x1 - bounds->x0; + pageSize.Y = bounds->y1 - bounds->y0; + + return pageSize; +} + +/* Get page size */ +Point muctx::MeasurePage(fz_page *page) +{ + Point pageSize; + fz_rect rect; + fz_rect *bounds; + + bounds = fz_bound_page(mu_doc, page, &rect); + pageSize.X = bounds->x1 - bounds->x0; + pageSize.Y = bounds->y1 - bounds->y0; + + return pageSize; +} + +void muctx::FlattenOutline(fz_outline *outline, int level, + sh_vector_content contents_vec) +{ + char indent[8*4+1]; + if (level > 8) + level = 8; + memset(indent, ' ', level * 4); + indent[level * 4] = 0; + + String^ indent_str = char_to_String(indent); + String^ str_indent; + + while (outline) + { + if (outline->dest.kind == FZ_LINK_GOTO) + { + int page = outline->dest.ld.gotor.page; + if (page >= 0 && outline->title) + { + /* Add to the contents std:vec */ + sh_content content_item(new content_t()); + content_item->page = page; + content_item->string_orig = char_to_String(outline->title); + content_item->string_margin = + str_indent->Concat(indent_str, content_item->string_orig); + contents_vec->push_back(content_item); + } + } + FlattenOutline(outline->down, level + 1, contents_vec); + outline = outline->next; + } +} + +int muctx::GetContents(sh_vector_content contents_vec) +{ + fz_outline *root = NULL; + fz_context *ctx_clone = NULL; + int has_content = 0; + + ctx_clone = fz_clone_context(mu_ctx); + + fz_var(root); + fz_try(ctx_clone) + { + root = fz_load_outline(mu_doc); + if (root != NULL) + { + has_content = 1; + FlattenOutline(root, 0, contents_vec); + } + } + fz_always(ctx_clone) + { + fz_free_outline(ctx_clone, root); + } + fz_catch(ctx_clone) + { + fz_free_context(ctx_clone); + return E_FAIL; + } + fz_free_context(ctx_clone); + return has_content; +} + +int muctx::GetTextSearch(int page_num, char* needle, sh_vector_text texts_vec) +{ + fz_page *page = NULL; + fz_text_sheet *sheet = NULL; + fz_device *dev = NULL; + fz_context *ctx_clone = NULL; + fz_text_page *text = NULL; + int hit_count = 0; + int k; + + ctx_clone = fz_clone_context(mu_ctx); + + fz_var(page); + fz_var(sheet); + fz_var(dev); + fz_try(ctx_clone) + { + page = fz_load_page(mu_doc, page_num); + sheet = fz_new_text_sheet(ctx_clone); + text = fz_new_text_page(ctx_clone); + dev = fz_new_text_device(ctx_clone, sheet, text); + fz_run_page(mu_doc, page, dev, &fz_identity, NULL); + fz_free_device(dev); /* Why does this need to be done here? Seems odd */ + dev = NULL; + hit_count = fz_search_text_page(ctx_clone, text, needle, mu_hit_bbox, nelem(mu_hit_bbox)); + + for (k = 0; k < hit_count; k++) + { + sh_text text_search(new text_search_t()); + text_search->upper_left.X = mu_hit_bbox[k].x0; + text_search->upper_left.Y = mu_hit_bbox[k].y0; + text_search->lower_right.X = mu_hit_bbox[k].x1; + text_search->lower_right.Y = mu_hit_bbox[k].y1; + texts_vec->push_back(text_search); + } + } + fz_always(ctx_clone) + { + fz_free_page(mu_doc, page); + fz_free_device(dev); + fz_free_text_sheet(ctx_clone, sheet); + fz_free_text_page(ctx_clone, text); + } + fz_catch(ctx_clone) + { + fz_free_context(ctx_clone); + return E_FAIL; + } + fz_free_context(ctx_clone); + return hit_count; +} + +/* Get the links and pack into a smart pointer structure */ +int muctx::GetLinks(int page_num, sh_vector_link links_vec) +{ + fz_page *page = NULL; + fz_link *links = NULL; + fz_context *ctx_clone = NULL; + int k = 0; + int num_links = 0; + + ctx_clone = fz_clone_context(mu_ctx); + + fz_var(page); + fz_var(links); + fz_try(ctx_clone) + { + page = fz_load_page(mu_doc, page_num); + links = fz_load_links(mu_doc, page); + + fz_link *curr_link = links; + if (curr_link != NULL) + { + /* Get our smart pointer structure filled */ + while (curr_link != NULL) + { + fz_rect curr_rect = curr_link->rect; + sh_link link(new document_link_t()); + + link->upper_left.X = curr_rect.x0; + link->upper_left.Y = curr_rect.y0; + link->lower_right.X = curr_rect.x1; + link->lower_right.Y = curr_rect.y1; + + switch (curr_link->dest.kind) + { + case FZ_LINK_GOTO: + + link->type = LINK_GOTO; + link->page_num = curr_link->dest.ld.gotor.page; + break; + + case FZ_LINK_URI: + { + int lenstr = strlen(curr_link->dest.ld.uri.uri); + std::unique_ptr<char[]> uri(new char[lenstr + 1]); + strcpy_s(uri.get(), lenstr + 1, curr_link->dest.ld.uri.uri); + link->uri.swap(uri); + link->type = LINK_URI; + break; + } + + default: + link->type = NOT_SET; + + } + links_vec->push_back(link); + curr_link = curr_link->next; + num_links += 1; + } + } + } + fz_always(ctx_clone) + { + fz_free_page(mu_doc, page); + fz_drop_link(ctx_clone, links); + } + fz_catch(ctx_clone) + { + fz_free_context(ctx_clone); + return E_FAIL; + } + fz_free_context(ctx_clone); + return num_links; +} + +fz_display_list * muctx::CreateDisplayList(int page_num) +{ + fz_context *ctx_clone = NULL; + fz_device *dev = NULL; + fz_page *page = NULL; + + ctx_clone = fz_clone_context(mu_ctx); + + /* First see if we have this one in the cache */ + fz_display_list *dlist = display_list_cache->UseEntry(page_num, ctx_clone); + if (dlist != NULL) + return dlist; + + /* Apparently not, lets go ahead and create and add to cache */ + fz_var(dev); + fz_var(page); + fz_var(dlist); + + fz_try(ctx_clone) + { + page = fz_load_page(mu_doc, page_num); + + /* Create a new list */ + dlist = fz_new_display_list(ctx_clone); + dev = fz_new_list_device(ctx_clone, dlist); + fz_run_page_contents(mu_doc, page, dev, &fz_identity, NULL); + /* Add it to the cache and set that it is in use */ + display_list_cache->AddEntry(page_num, dlist, ctx_clone); + } + fz_always(ctx_clone) + { + fz_free_device(dev); + fz_free_page(mu_doc, page); + } + fz_catch(ctx_clone) + { + fz_drop_display_list(ctx_clone, dlist); + fz_free_context(ctx_clone); + return NULL; + } + return dlist; +} + +/* Render page_num to size width by height into bmp_data buffer */ +status_t muctx::RenderPage(int page_num, int width, int height, + unsigned char *bmp_data, bool use_dlist) +{ + fz_device *dev = NULL; + fz_pixmap *pix = NULL; + fz_page *page = NULL; + fz_matrix ctm, *pctm = &ctm; + Point page_size; + fz_context *ctx_clone = NULL; + fz_display_list *dlist = NULL; + + if (use_dlist) + if ((dlist = CreateDisplayList(page_num)) == NULL) + return E_FAILURE; + + ctx_clone = fz_clone_context(mu_ctx); + + fz_var(dev); + fz_var(pix); + fz_var(page); + fz_var(dlist); + + fz_try(ctx_clone) + { + page = fz_load_page(mu_doc, page_num); + page_size = MeasurePage(page); + + /* Figure out scale factors so that we get the desired size */ + pctm = fz_scale(pctm, (float) width / page_size.X, (float) height / page_size.Y); + /* Flip on Y */ + ctm.f = height; + ctm.d = -ctm.d; + pix = fz_new_pixmap_with_data(ctx_clone, fz_device_bgr(ctx_clone), width, height, bmp_data); + fz_clear_pixmap_with_value(ctx_clone, pix, 255); + dev = fz_new_draw_device(ctx_clone, pix); + if (use_dlist) + fz_run_display_list(dlist, dev, pctm, NULL, NULL); + else + fz_run_page(mu_doc, page, dev, pctm, NULL); + } + fz_always(ctx_clone) + { + fz_free_device(dev); + fz_drop_pixmap(ctx_clone, pix); + fz_free_page(mu_doc, page); + if (use_dlist) + fz_drop_display_list(ctx_clone, dlist); + + } + fz_catch(ctx_clone) + { + fz_free_context(ctx_clone); + return E_FAILURE; + } + + fz_free_context(ctx_clone); + return S_ISOK; +} + +bool muctx::RequiresPassword(void) +{ + return fz_needs_password(mu_doc); +} + +bool muctx::ApplyPassword(char* password) +{ + return fz_authenticate_password(mu_doc, password); +} + +String^ muctx::GetHTML(int page_num) +{ + fz_output *out = NULL; + fz_device *dev = NULL; + fz_page *page = NULL; + fz_text_sheet *sheet = NULL; + fz_text_page *text = NULL; + fz_context *ctx_clone = NULL; + fz_buffer *buf = NULL; + String^ html; + + ctx_clone = fz_clone_context(mu_ctx); + + fz_var(dev); + fz_var(page); + fz_var(sheet); + fz_var(text); + fz_var(buf); + fz_try(ctx_clone) + { + page = fz_load_page(mu_doc, page_num); + sheet = fz_new_text_sheet(ctx_clone); + text = fz_new_text_page(ctx_clone); + dev = fz_new_text_device(ctx_clone, sheet, text); + fz_run_page(mu_doc, page, dev, &fz_identity, NULL); + fz_free_device(dev); + dev = NULL; + fz_analyze_text(ctx_clone, sheet, text); + buf = fz_new_buffer(ctx_clone, 256); + out = fz_new_output_with_buffer(ctx_clone, buf); + fz_print_text_page_html(ctx_clone, out, text); + html = char_to_String((char*) buf->data); + } + fz_always(ctx_clone) + { + fz_free_device(dev); + fz_free_page(mu_doc, page); + fz_free_text_sheet(ctx_clone, sheet); + fz_free_text_page(ctx_clone, text); + fz_drop_buffer(ctx_clone, buf); + } + fz_catch(ctx_clone) + { + fz_free_context(ctx_clone); + return nullptr; + } + + fz_free_context(ctx_clone); + return html; +} |