/* harfbuzz-buffer.c: Buffer of glyphs for substitution/positioning * * Copyright 2004,2007 Red Hat Software * * Portions Copyright 1996-2000 by * David Turner, Robert Wilhelm, and Werner Lemberg. */ #include "harfbuzz-impl.h" #include "harfbuzz-buffer.h" #include "harfbuzz-gsub-private.h" #include "harfbuzz-gpos-private.h" /* Here is how the buffer works internally: * * There are two string pointers: in_string and out_string. They * always have same allocated size, but different length and positions. * * As an optimization, both in_string and out_string may point to the * same piece of memory, which is owned by in_string. This remains the * case as long as: * * - copy_glyph() is called * - replace_glyph() is called with inplace=TRUE * - add_output_glyph() and add_output_glyphs() are not called * * In that case swap(), and copy_glyph(), and replace_glyph() are all * mostly no-op. * * As soon an add_output_glyph[s]() or replace_glyph() with inplace=FALSE is * called, out_string is moved over to an alternate buffer (alt_string), and * its current contents (out_length entries) are copied to the alt buffer. * This should all remain transparent to the user. swap() then switches * in_string and alt_string. alt_string is not allocated until its needed, * but after that it's grown with in_string unconditionally. * * The buffer->inplace boolean keeps status of whether out_string points to * in_string or alt_string. */ static HB_Error hb_buffer_ensure( HB_Buffer buffer, FT_ULong size ) { FT_Memory memory = buffer->memory; FT_ULong new_allocated = buffer->allocated; if (size > new_allocated) { HB_Error error; while (size > new_allocated) new_allocated += (new_allocated >> 1) + 8; if ( REALLOC_ARRAY( buffer->positions, buffer->allocated, new_allocated, HB_PositionRec ) ) return error; if ( REALLOC_ARRAY( buffer->in_string, buffer->allocated, new_allocated, HB_GlyphItemRec ) ) return error; if ( buffer->inplace ) { buffer->out_string = buffer->in_string; if ( buffer->alt_string ) { if ( REALLOC_ARRAY( buffer->alt_string, buffer->allocated, new_allocated, HB_GlyphItemRec ) ) return error; } } else { if ( REALLOC_ARRAY( buffer->alt_string, buffer->allocated, new_allocated, HB_GlyphItemRec ) ) return error; buffer->out_string = buffer->alt_string; } buffer->allocated = new_allocated; } return HB_Err_Ok; } static HB_Error hb_buffer_duplicate_out_buffer( HB_Buffer buffer ) { if ( !buffer->alt_string ) { FT_Memory memory = buffer->memory; HB_Error error; if ( ALLOC_ARRAY( buffer->alt_string, buffer->allocated, HB_GlyphItemRec ) ) return error; } buffer->out_string = buffer->alt_string; memcpy( buffer->out_string, buffer->in_string, buffer->out_length * sizeof (buffer->out_string[0]) ); buffer->inplace = FALSE; return HB_Err_Ok; } HB_Error hb_buffer_new( FT_Memory memory, HB_Buffer *buffer ) { HB_Error error; if ( ALLOC( *buffer, sizeof( HB_BufferRec ) ) ) return error; (*buffer)->memory = memory; (*buffer)->in_length = 0; (*buffer)->out_length = 0; (*buffer)->allocated = 0; (*buffer)->in_pos = 0; (*buffer)->out_pos = 0; (*buffer)->in_string = NULL; (*buffer)->out_string = NULL; (*buffer)->alt_string = NULL; (*buffer)->positions = NULL; (*buffer)->max_ligID = 0; (*buffer)->inplace = TRUE; return HB_Err_Ok; } void hb_buffer_clear_output( HB_Buffer buffer ) { buffer->out_length = 0; buffer->out_pos = 0; buffer->out_string = buffer->in_string; buffer->inplace = TRUE; } void hb_buffer_swap( HB_Buffer buffer ) { HB_GlyphItem tmp_string; int tmp_length; int tmp_pos; if ( ! buffer->inplace ) { tmp_string = buffer->in_string; buffer->in_string = buffer->out_string; buffer->out_string = tmp_string; buffer->alt_string = buffer->out_string; } tmp_length = buffer->in_length; buffer->in_length = buffer->out_length; buffer->out_length = tmp_length; tmp_pos = buffer->in_pos; buffer->in_pos = buffer->out_pos; buffer->out_pos = tmp_pos; } void hb_buffer_free( HB_Buffer buffer ) { FT_Memory memory = buffer->memory; FREE( buffer->in_string ); FREE( buffer->alt_string ); buffer->out_string = NULL; FREE( buffer->positions ); FREE( buffer ); } void hb_buffer_clear( HB_Buffer buffer ) { buffer->in_length = 0; buffer->out_length = 0; buffer->in_pos = 0; buffer->out_pos = 0; buffer->out_string = buffer->in_string; buffer->inplace = TRUE; } HB_Error hb_buffer_add_glyph( HB_Buffer buffer, FT_UInt glyph_index, FT_UInt properties, FT_UInt cluster ) { HB_Error error; HB_GlyphItem glyph; error = hb_buffer_ensure( buffer, buffer->in_length + 1 ); if ( error ) return error; glyph = &buffer->in_string[buffer->in_length]; glyph->gindex = glyph_index; glyph->properties = properties; glyph->cluster = cluster; glyph->component = 0; glyph->ligID = 0; glyph->gproperties = HB_GLYPH_PROPERTIES_UNKNOWN; buffer->in_length++; return HB_Err_Ok; } /* The following function copies `num_out' elements from `glyph_data' to `buffer->out_string', advancing the in array pointer in the structure by `num_in' elements, and the out array pointer by `num_out' elements. Finally, it sets the `length' field of `out' equal to `pos' of the `out' structure. If `component' is 0xFFFF, the component value from buffer->in_pos will copied `num_out' times, otherwise `component' itself will be used to fill the `component' fields. If `ligID' is 0xFFFF, the ligID value from buffer->in_pos will copied `num_out' times, otherwise `ligID' itself will be used to fill the `ligID' fields. The properties for all replacement glyphs are taken from the glyph at position `buffer->in_pos'. The cluster value for the glyph at position buffer->in_pos is used for all replacement glyphs */ HB_Error hb_buffer_add_output_glyphs( HB_Buffer buffer, FT_UShort num_in, FT_UShort num_out, FT_UShort *glyph_data, FT_UShort component, FT_UShort ligID ) { HB_Error error; FT_UShort i; FT_UInt properties; FT_UInt cluster; error = hb_buffer_ensure( buffer, buffer->out_pos + num_out ); if ( error ) return error; if ( buffer->inplace ) { error = hb_buffer_duplicate_out_buffer( buffer ); if ( error ) return error; } properties = buffer->in_string[buffer->in_pos].properties; cluster = buffer->in_string[buffer->in_pos].cluster; if ( component == 0xFFFF ) component = buffer->in_string[buffer->in_pos].component; if ( ligID == 0xFFFF ) ligID = buffer->in_string[buffer->in_pos].ligID; for ( i = 0; i < num_out; i++ ) { HB_GlyphItem item = &buffer->out_string[buffer->out_pos + i]; item->gindex = glyph_data[i]; item->properties = properties; item->cluster = cluster; item->component = component; item->ligID = ligID; item->gproperties = HB_GLYPH_PROPERTIES_UNKNOWN; } buffer->in_pos += num_in; buffer->out_pos += num_out; buffer->out_length = buffer->out_pos; return HB_Err_Ok; } HB_Error hb_buffer_add_output_glyph( HB_Buffer buffer, FT_UInt glyph_index, FT_UShort component, FT_UShort ligID ) { FT_UShort glyph_data = glyph_index; return hb_buffer_add_output_glyphs ( buffer, 1, 1, &glyph_data, component, ligID ); } HB_Error hb_buffer_copy_output_glyph ( HB_Buffer buffer ) { HB_Error error; error = hb_buffer_ensure( buffer, buffer->out_pos + 1 ); if ( error ) return error; if ( ! buffer->inplace ) { buffer->out_string[buffer->out_pos] = buffer->in_string[buffer->in_pos]; } buffer->in_pos++; buffer->out_pos++; buffer->out_length = buffer->out_pos; return HB_Err_Ok; } HB_Error hb_buffer_replace_output_glyph( HB_Buffer buffer, FT_UInt glyph_index, FT_Bool inplace ) { HB_Error error; if ( inplace ) { error = hb_buffer_copy_output_glyph ( buffer ); if ( error ) return error; buffer->out_string[buffer->out_pos-1].gindex = glyph_index; } else { return hb_buffer_add_output_glyph( buffer, glyph_index, 0xFFFF, 0xFFFF ); } return HB_Err_Ok; } FT_UShort hb_buffer_allocate_ligid( HB_Buffer buffer ) { return ++buffer->max_ligID; }