/* * Mr. 4th Dimention - Allen Webster * Four Tech * * public domain -- no warranty is offered or implied; use this code at your own risk * * 23.10.2015 * * Buffer data object * type - Gap Buffer * */ // TOP typedef struct{ char *data; int size1, gap_size, size2, max; float *line_widths; int *line_starts; int line_count; int line_max; int widths_max; } Gap_Buffer; inline_4tech void buffer_initialize(Gap_Buffer *buffer, char *data, int size){ int osize1, size1, size2; assert_4tech(buffer->max >= size); size2 = size >> 1; size1 = osize1 = size - size2; if (size1 > 0){ size1 = eol_convert_in(buffer->data, data, size1); if (size2 > 0){ size2 = eol_convert_in(buffer->data + size1, data + osize1, size2); } } buffer->size1 = size1; buffer->size2 = size2; buffer->gap_size = buffer->max - size1 - size2; memmove_4tech(buffer->data + size1 + buffer->gap_size, buffer->data + size1, size2); } inline_4tech int buffer_size(Gap_Buffer *buffer){ int size; size = buffer->size1 + buffer->size2; return(size); } typedef struct{ Gap_Buffer *buffer; char *data, *base; int absolute_pos; int pos, end; int size; int page_size; int separated; } Gap_Buffer_Stringify_Loop; inline_4tech Gap_Buffer_Stringify_Loop buffer_stringify_loop(Gap_Buffer *buffer, int start, int end, int page_size){ Gap_Buffer_Stringify_Loop result; if (0 <= start && start < end && end <= buffer->size1 + buffer->size2){ result.buffer = buffer; result.base = buffer->data; result.page_size = page_size; result.absolute_pos = start; if (end <= buffer->size1) result.end = end; else result.end = end + buffer->gap_size; if (start < buffer->size1){ if (end <= buffer->size1) result.separated = 0; else result.separated = 1; result.pos = start; } else{ result.separated = 0; result.pos = start + buffer->gap_size; } if (result.separated) result.size = buffer->size1 - start; else result.size = end - start; if (result.size > page_size) result.size = page_size; result.data = buffer->data + result.pos; } else result.buffer = 0; return(result); } inline_4tech int buffer_stringify_good(Gap_Buffer_Stringify_Loop *loop){ int result; result = (loop->buffer != 0); return(result); } inline_4tech void buffer_stringify_next(Gap_Buffer_Stringify_Loop *loop){ int size1, temp_end; if (loop->separated){ size1 = loop->buffer->size1; if (loop->pos + loop->size == size1){ loop->separated = 0; loop->pos = loop->buffer->gap_size + size1; loop->absolute_pos = size1; temp_end = loop->end; } else{ loop->pos += loop->page_size; loop->absolute_pos += loop->page_size; temp_end = size1; } } else{ if (loop->pos + loop->size == loop->end){ loop->buffer = 0; temp_end = loop->pos; } else{ loop->pos += loop->page_size; loop->absolute_pos += loop->page_size; temp_end = loop->end; } } loop->size = temp_end - loop->pos; if (loop->size > loop->page_size) loop->size = loop->page_size; loop->data = loop->base + loop->pos; } typedef struct{ Gap_Buffer *buffer; char *data, *base; int pos, end; int size; int absolute_pos; int page_size; int separated; } Gap_Buffer_Backify_Loop; inline_4tech Gap_Buffer_Backify_Loop buffer_backify_loop(Gap_Buffer *buffer, int start, int end, int page_size){ Gap_Buffer_Backify_Loop result; int chunk2_start; if (0 <= end && end < start && start <= buffer->size1 + buffer->size2){ chunk2_start = buffer->size1 + buffer->gap_size; result.buffer = buffer; result.base = buffer->data; result.page_size = page_size; if (end < buffer->size1) result.end = end; else result.end = end + buffer->gap_size; if (start <= buffer->size1){ result.separated = 0; result.pos = start - page_size; } else{ if (end < buffer->size1) result.separated = 1; else result.separated = 0; result.pos = start - page_size + buffer->gap_size; } if (result.separated){ if (result.pos < chunk2_start) result.pos = chunk2_start; } else{ if (result.pos < result.end) result.pos = result.end; } result.size = start - result.pos; result.absolute_pos = result.pos; if (result.absolute_pos > buffer->size1) result.absolute_pos -= buffer->gap_size; result.data = result.base + result.pos; } else result.buffer = 0; return(result); } inline_4tech int buffer_backify_good(Gap_Buffer_Backify_Loop *loop){ int result; result = (loop->buffer != 0); return(result); } inline_4tech void buffer_backify_next(Gap_Buffer_Backify_Loop *loop){ Gap_Buffer *buffer; int temp_end; int chunk2_start; buffer = loop->buffer; chunk2_start = buffer->size1 + buffer->gap_size; if (loop->separated){ if (loop->pos == chunk2_start){ loop->separated = 0; temp_end = buffer->size1; loop->pos = temp_end - loop->page_size; loop->absolute_pos = loop->pos; if (loop->pos < loop->end){ loop->absolute_pos += (loop->end - loop->pos); loop->pos = loop->end; } } else{ temp_end = loop->pos; loop->pos -= loop->page_size; loop->absolute_pos -= loop->page_size; if (loop->pos < chunk2_start){ loop->pos = chunk2_start; loop->absolute_pos = buffer->size1; } } } else{ if (loop->pos == loop->end){ temp_end = 0; loop->buffer = 0; } else{ temp_end = loop->pos; loop->pos -= loop->page_size; loop->absolute_pos -= loop->page_size; if (loop->pos < loop->end){ loop->absolute_pos += (loop->end - loop->pos); loop->pos = loop->end; } } } loop->size = temp_end - loop->pos; loop->data = loop->base + loop->pos; } inline_4tech void buffer_stringify(Gap_Buffer *buffer, int start, int end, char *out){ for (Gap_Buffer_Stringify_Loop loop = buffer_stringify_loop(buffer, start, end, end - start); buffer_stringify_good(&loop); buffer_stringify_next(&loop)){ memcpy_4tech(out, loop.data, loop.size); out += loop.size; } } // BOTTOM