#ifndef HALIBUT_PAPER_H
#define HALIBUT_PAPER_H
+/* Number of internal units per PostScript point. */
+#define UNITS_PER_PT 1000
+#define FUNITS_PER_PT 1000.0
+
+/* Glyphs are represented by integer indicies into a table of names. */
+typedef unsigned short glyph;
+#define NOGLYPH 0xFFFF
+
typedef struct document_Tag document;
+typedef struct glyph_width_Tag glyph_width;
+typedef struct kern_pair_Tag kern_pair;
+typedef struct ligature_Tag ligature;
+typedef struct font_info_Tag font_info;
typedef struct font_data_Tag font_data;
typedef struct font_encoding_Tag font_encoding;
typedef struct font_list_Tag font_list;
typedef struct text_fragment_Tag text_fragment;
typedef struct xref_Tag xref;
typedef struct xref_dest_Tag xref_dest;
+typedef struct rect_Tag rect;
+typedef struct outline_element_Tag outline_element;
/*
* This data structure represents the overall document, in the form
int paper_width, paper_height;
font_list *fonts;
page_data *pages;
+ outline_element *outline_elements;
+ int n_outline_elements;
};
/*
- * This data structure represents a particular font.
+ * This data structure represents the normal width of a single glyph
+ * in a font.
*/
-struct font_data_Tag {
+struct glyph_width_Tag {
+ glyph glyph;
+ int width;
+};
+
+/*
+ * This data structure represents a kerning pair within a font.
+ */
+struct kern_pair_Tag {
+ /* Glyph indices. */
+ glyph left, right;
+ /* Kern amount, in internal units. */
+ int kern;
+};
+
+/*
+ * ... and this one represents a ligature.
+ */
+struct ligature_Tag {
+ glyph left, right, lig;
+};
+
+/*
+ * This data structure holds static information about a font that doesn't
+ * depend on the particular document. It gets generated when the font's
+ * metrics are read in.
+ */
+
+font_info *all_fonts;
+
+struct font_info_Tag {
+ font_info *next;
/*
* Specify the PostScript name of the font and its point size.
*/
const char *name;
/*
- * An array of pointers to the available glyph names, and their
- * corresponding character widths. These two arrays have
- * parallel indices.
+ * Pointer to data about the file containing the font, if any.
*/
- int nglyphs;
- const char *const *glyphs;
- const int *widths;
+ void *fontfile;
+ enum { TYPE1, TRUETYPE } filetype;
+ /* A tree of glyph_widths */
+ tree234 *widths;
+ /* A tree of kern_pairs */
+ tree234 *kerns;
+ /* ... and one of ligatures */
+ tree234 *ligs;
/*
* For reasonably speedy lookup, we set up a 65536-element
* table representing the Unicode BMP (I can conveniently
* know that no glyph in the Adobe Glyph List falls outside
* it), whose elements are indices into the above two arrays.
*/
- unsigned short bmp[65536];
+ glyph bmp[65536];
+ /*
+ * Various bits of metadata needed for the /FontDescriptor dictionary
+ * in PDF.
+ */
+ float fontbbox[4];
+ float capheight;
+ float xheight;
+ float ascent;
+ float descent;
+ float stemv;
+ float stemh;
+ float italicangle;
+};
+
+/*
+ * This structure holds the information about how a font is used
+ * in a document.
+ */
+struct font_data_Tag {
+ font_info const *info;
/*
* At some point I'm going to divide the font into sub-fonts
- * with largely non-overlapping encoding vectors. This array
+ * with largely non-overlapping encoding vectors. This tree
* will track which glyphs go into which subfonts. Also here I
* keep track of the latest subfont of any given font, so I can
* go back and extend its encoding.
*/
- subfont_map_entry *subfont_map;
+ tree234 *subfont_map;
font_encoding *latest_subfont;
/*
* The font list to which this font belongs.
char *name; /* used by client backends */
font_data *font; /* the parent font structure */
- const char *vector[256]; /* the actual encoding vector */
- int indices[256]; /* indices back into main font struct */
+ glyph vector[256]; /* the actual encoding vector */
wchar_t to_unicode[256]; /* PDF will want to know this */
int free_pos; /* space left to extend encoding */
};
*/
struct para_data_Tag {
+ para_data *next;
/*
* Data about the fonts used in this paragraph. Indices are the
* FONT_* constants defined above.
*/
line_data *first; /* first line in paragraph */
line_data *last; /* last line in paragraph */
+ /*
+ * Some paragraphs have associated graphics; currently this is
+ * nothing more complex than a single black rectangle.
+ */
+ enum {
+ RECT_NONE, RECT_CHAPTER_UNDERLINE, RECT_RULE
+ } rect_type;
+ /*
+ * We left- and right-justify in special circumstances.
+ */
+ enum {
+ JUST, LEFT, RIGHT
+ } justification;
+ /*
+ * Sometimes (in code paragraphs) we want to override the flags
+ * passed to render_string().
+ */
+ unsigned extraflags;
+ /*
+ * For constructing the page outline.
+ */
+ int outline_level; /* 0=title 1=C 2=H 3=S 4=S2... */
+ wchar_t *outline_title;
+ /*
+ * For adding the page number of a contents entry afterwards.
+ */
+ paragraph *contents_entry;
};
struct line_data_Tag {
word *end;
int xpos;
int hshortfall, nspaces; /* for justifying paragraphs */
+ int real_shortfall;
/*
* Auxiliary text: a section number in a margin, or a list item
* bullet or number. Also mention where to display this text
* relative to the left margin.
*/
word *aux_text;
+ word *aux_text_2;
int aux_left_indent;
/*
* This line might have a non-negotiable page break before it.
int space_after;
int line_height;
/*
+ * Penalties for page breaking before or after this line.
+ */
+ int penalty_before, penalty_after;
+ /*
* These fields are used in the page breaking algorithm.
*/
- int bestcost;
- int vshortfall, text, space;
- line_data *page_last; /* last line on a page starting here */
+ int *bestcost;
+ int *vshortfall, *text, *space;
+ line_data **page_last; /* last line on a page starting here */
/*
* After page breaking, we can assign an actual y-coordinate on
* the page to each line. Also we store a pointer back to the
xref *first_xref;
xref *last_xref;
/*
+ * Rectangles to be drawn. (These are currently only used for
+ * underlining chapter titles and drawing horizontal rules.)
+ */
+ rect *first_rect;
+ rect *last_rect;
+ /*
+ * The page number, as a string.
+ */
+ wchar_t *number;
+ /*
* This spare pointer field is for use by the client backends.
*/
void *spare;
font_encoding *fe;
int fontsize;
char *text;
+ int width;
};
struct xref_dest_Tag {
xref_dest dest;
};
+struct rect_Tag {
+ rect *next;
+ int x, y, w, h;
+};
+
+struct outline_element_Tag {
+ int level; /* 0=title 1=C 2=H 3=S 4=S2... */
+ para_data *pdata;
+};
+
+/*
+ * Functions exported from bk_paper.c
+ */
+int width_cmp(void *, void *); /* use when setting up widths */
+int kern_cmp(void *, void *); /* use when setting up kern_pairs */
+int lig_cmp(void *, void *); /* use when setting up ligatures */
+int find_width(font_data *, glyph);
+
/*
* Functions and data exported from psdata.c.
*/
-wchar_t ps_glyph_to_unicode(char const *glyph);
+glyph glyph_intern(char const *);
+char const *glyph_extern(glyph);
+wchar_t ps_glyph_to_unicode(glyph);
extern const char *const ps_std_glyphs[];
+extern glyph const tt_std_glyphs[];
+void init_std_fonts(void);
const int *ps_std_font_widths(char const *fontname);
+const kern_pair *ps_std_font_kerns(char const *fontname);
+
+/*
+ * Function from bk_pdf.c borrowed by bk_ps.c
+ */
+char *pdf_outline_convert(wchar_t *s, int *len);
+
+/*
+ * Backend functions exported by in_pf.c
+ */
+void pf_part1(font_info *fi, char **bufp, size_t *lenp);
+void pf_part2(font_info *fi, char **bufp, size_t *lenp);
+void pf_writeps(font_info const *fi, FILE *ofp);
+
+/*
+ * Backend functions exported by in_sfnt.c
+ */
+void sfnt_writeps(font_info const *fi, FILE *ofp);
#endif