src/vterm.c - platform/external/libvterm - Git at Google

 #include "vterm_internal.h"

 #include <stdio.h>
 #include <stdlib.h>
 #include <stdarg.h>
 #include <string.h>

 /*****************
  * API functions *
  *****************/

 static void *default_malloc(size_t size, void *allocdata)
 {
   void *ptr = malloc(size);
   if(ptr)
     memset(ptr, 0, size);
   return ptr;
 }

 static void default_free(void *ptr, void *allocdata)
 {
   free(ptr);
 }

 static VTermAllocatorFunctions default_allocator = {
   .malloc = &default_malloc,
   .free   = &default_free,
 };

 VTerm *vterm_new(int rows, int cols)
 {
   return vterm_new_with_allocator(rows, cols, &default_allocator, NULL);
 }

 VTerm *vterm_new_with_allocator(int rows, int cols, VTermAllocatorFunctions *funcs, void *allocdata)
 {
   /* Need to bootstrap using the allocator function directly */
   VTerm *vt = (*funcs->malloc)(sizeof(VTerm), allocdata);

   vt->allocator = funcs;
   vt->allocdata = allocdata;

   vt->rows = rows;
   vt->cols = cols;

   vt->parser_state = NORMAL;

   vt->strbuffer_len = 64;
   vt->strbuffer_cur = 0;
   vt->strbuffer = vterm_allocator_malloc(vt, vt->strbuffer_len);

   vt->outbuffer_len = 64;
   vt->outbuffer_cur = 0;
   vt->outbuffer = vterm_allocator_malloc(vt, vt->outbuffer_len);

   return vt;
 }

 void vterm_free(VTerm *vt)
 {
   if(vt->screen)
     vterm_screen_free(vt->screen);

   if(vt->state)
     vterm_state_free(vt->state);

   vterm_allocator_free(vt, vt->strbuffer);
   vterm_allocator_free(vt, vt->outbuffer);

   vterm_allocator_free(vt, vt);
 }

 INTERNAL void *vterm_allocator_malloc(VTerm *vt, size_t size)
 {
   return (*vt->allocator->malloc)(size, vt->allocdata);
 }

 INTERNAL void vterm_allocator_free(VTerm *vt, void *ptr)
 {
   (*vt->allocator->free)(ptr, vt->allocdata);
 }

 void vterm_get_size(const VTerm *vt, int *rowsp, int *colsp)
 {
   if(rowsp)
     *rowsp = vt->rows;
   if(colsp)
     *colsp = vt->cols;
 }

 void vterm_set_size(VTerm *vt, int rows, int cols)
 {
   vt->rows = rows;
   vt->cols = cols;

   if(vt->parser_callbacks && vt->parser_callbacks->resize)
     (*vt->parser_callbacks->resize)(rows, cols, vt->cbdata);
 }

 void vterm_set_parser_callbacks(VTerm *vt, const VTermParserCallbacks *callbacks, void *user)
 {
   vt->parser_callbacks = callbacks;
   vt->cbdata = user;
 }

 void vterm_parser_set_utf8(VTerm *vt, int is_utf8)
 {
   vt->mode.utf8 = is_utf8;
 }

 INTERNAL void vterm_push_output_bytes(VTerm *vt, const char *bytes, size_t len)
 {
   if(len > vt->outbuffer_len - vt->outbuffer_cur) {
     fprintf(stderr, "vterm_push_output(): buffer overflow; truncating output\n");
     len = vt->outbuffer_len - vt->outbuffer_cur;
   }

   memcpy(vt->outbuffer + vt->outbuffer_cur, bytes, len);
   vt->outbuffer_cur += len;
 }

 INTERNAL void vterm_push_output_vsprintf(VTerm *vt, const char *format, va_list args)
 {
   int written = vsnprintf(vt->outbuffer + vt->outbuffer_cur,
       vt->outbuffer_len - vt->outbuffer_cur,
       format, args);
   vt->outbuffer_cur += written;
 }

 INTERNAL void vterm_push_output_sprintf(VTerm *vt, const char *format, ...)
 {
   va_list args;
   va_start(args, format);
   vterm_push_output_vsprintf(vt, format, args);
   va_end(args);
 }

 INTERNAL void vterm_push_output_sprintf_ctrl(VTerm *vt, unsigned char ctrl, const char *fmt, ...)
 {
   if(ctrl >= 0x80 && !vt->mode.ctrl8bit)
     vterm_push_output_sprintf(vt, "\e%c", ctrl - 0x40);
   else
     vterm_push_output_sprintf(vt, "%c", ctrl);

   va_list args;
   va_start(args, fmt);
   vterm_push_output_vsprintf(vt, fmt, args);
   va_end(args);
 }

 INTERNAL void vterm_push_output_sprintf_dcs(VTerm *vt, const char *fmt, ...)
 {
   if(!vt->mode.ctrl8bit)
     vterm_push_output_sprintf(vt, "\e%c", C1_DCS - 0x40);
   else
     vterm_push_output_sprintf(vt, "%c", C1_DCS);

   va_list args;
   va_start(args, fmt);
   vterm_push_output_vsprintf(vt, fmt, args);
   va_end(args);

   vterm_push_output_sprintf_ctrl(vt, C1_ST, "");
 }

 size_t vterm_output_bufferlen(VTerm *vt)
 {
   return vterm_output_get_buffer_current(vt);
 }

 size_t vterm_output_get_buffer_size(const VTerm *vt)
 {
   return vt->outbuffer_len;
 }

 size_t vterm_output_get_buffer_current(const VTerm *vt)
 {
   return vt->outbuffer_cur;
 }

 size_t vterm_output_get_buffer_remaining(const VTerm *vt)
 {
   return vt->outbuffer_len - vt->outbuffer_cur;
 }

 size_t vterm_output_bufferread(VTerm *vt, char *buffer, size_t len)
 {
   if(len > vt->outbuffer_cur)
     len = vt->outbuffer_cur;

   memcpy(buffer, vt->outbuffer, len);

   if(len < vt->outbuffer_cur)
     memmove(vt->outbuffer, vt->outbuffer + len, vt->outbuffer_cur - len);

   vt->outbuffer_cur -= len;

   return len;
 }

 VTermValueType vterm_get_attr_type(VTermAttr attr)
 {
   switch(attr) {
     case VTERM_ATTR_BOLD:       return VTERM_VALUETYPE_BOOL;
     case VTERM_ATTR_UNDERLINE:  return VTERM_VALUETYPE_INT;
     case VTERM_ATTR_ITALIC:     return VTERM_VALUETYPE_BOOL;
     case VTERM_ATTR_BLINK:      return VTERM_VALUETYPE_BOOL;
     case VTERM_ATTR_REVERSE:    return VTERM_VALUETYPE_BOOL;
     case VTERM_ATTR_STRIKE:     return VTERM_VALUETYPE_BOOL;
     case VTERM_ATTR_FONT:       return VTERM_VALUETYPE_INT;
     case VTERM_ATTR_FOREGROUND: return VTERM_VALUETYPE_COLOR;
     case VTERM_ATTR_BACKGROUND: return VTERM_VALUETYPE_COLOR;
   }
   return 0; /* UNREACHABLE */
 }

 VTermValueType vterm_get_prop_type(VTermProp prop)
 {
   switch(prop) {
     case VTERM_PROP_CURSORVISIBLE: return VTERM_VALUETYPE_BOOL;
     case VTERM_PROP_CURSORBLINK:   return VTERM_VALUETYPE_BOOL;
     case VTERM_PROP_ALTSCREEN:     return VTERM_VALUETYPE_BOOL;
     case VTERM_PROP_TITLE:         return VTERM_VALUETYPE_STRING;
     case VTERM_PROP_ICONNAME:      return VTERM_VALUETYPE_STRING;
     case VTERM_PROP_REVERSE:       return VTERM_VALUETYPE_BOOL;
     case VTERM_PROP_CURSORSHAPE:   return VTERM_VALUETYPE_INT;
   }
   return 0; /* UNREACHABLE */
 }

 void vterm_scroll_rect(VTermRect rect,
     int downward,
     int rightward,
     int (*moverect)(VTermRect src, VTermRect dest, void *user),
     int (*eraserect)(VTermRect rect, int selective, void *user),
     void *user)
 {
   VTermRect src;
   VTermRect dest;

   if(abs(downward)  >= rect.end_row - rect.start_row ||
      abs(rightward) >= rect.end_col - rect.start_col) {
     /* Scroll more than area; just erase the lot */
     (*eraserect)(rect, 0, user);
     return;
   }

   if(rightward >= 0) {
     /* rect: [XXX................]
      * src:     [----------------]
      * dest: [----------------]
      */
     dest.start_col = rect.start_col;
     dest.end_col   = rect.end_col   - rightward;
     src.start_col  = rect.start_col + rightward;
     src.end_col    = rect.end_col;
   }
   else {
     /* rect: [................XXX]
      * src:  [----------------]
      * dest:    [----------------]
      */
     int leftward = -rightward;
     dest.start_col = rect.start_col + leftward;
     dest.end_col   = rect.end_col;
     src.start_col  = rect.start_col;
     src.end_col    = rect.end_col - leftward;
   }

   if(downward >= 0) {
     dest.start_row = rect.start_row;
     dest.end_row   = rect.end_row   - downward;
     src.start_row  = rect.start_row + downward;
     src.end_row    = rect.end_row;
   }
   else {
     int upward = -downward;
     dest.start_row = rect.start_row + upward;
     dest.end_row   = rect.end_row;
     src.start_row  = rect.start_row;
     src.end_row    = rect.end_row - upward;
   }

   if(moverect)
     (*moverect)(dest, src, user);

   if(downward > 0)
     rect.start_row = rect.end_row - downward;
   else if(downward < 0)
     rect.end_row = rect.start_row - downward;

   if(rightward > 0)
     rect.start_col = rect.end_col - rightward;
   else if(rightward < 0)
     rect.end_col = rect.start_col - rightward;

   (*eraserect)(rect, 0, user);
 }

 void vterm_copy_cells(VTermRect dest,
     VTermRect src,
     void (*copycell)(VTermPos dest, VTermPos src, void *user),
     void *user)
 {
   int downward  = src.start_row - dest.start_row;
   int rightward = src.start_col - dest.start_col;

   int init_row, test_row, init_col, test_col;
   int inc_row, inc_col;

   if(downward < 0) {
     init_row = dest.end_row - 1;
     test_row = dest.start_row - 1;
     inc_row = -1;
   }
   else /* downward >= 0 */ {
     init_row = dest.start_row;
     test_row = dest.end_row;
     inc_row = +1;
   }

   if(rightward < 0) {
     init_col = dest.end_col - 1;
     test_col = dest.start_col - 1;
     inc_col = -1;
   }
   else /* rightward >= 0 */ {
     init_col = dest.start_col;
     test_col = dest.end_col;
     inc_col = +1;
   }

   VTermPos pos;
   for(pos.row = init_row; pos.row != test_row; pos.row += inc_row)
     for(pos.col = init_col; pos.col != test_col; pos.col += inc_col) {
       VTermPos srcpos = { pos.row + downward, pos.col + rightward };
       (*copycell)(pos, srcpos, user);
     }
 }
	#include "vterm_internal.h"

	#include <stdio.h>
	#include <stdlib.h>
	#include <stdarg.h>
	#include <string.h>

	/*****************
	* API functions *
	*****************/

	static void default_malloc(size_t size, void allocdata)
	{
	void *ptr = malloc(size);
	if(ptr)
	memset(ptr, 0, size);
	return ptr;
	}

	static void default_free(void ptr, void allocdata)
	{
	free(ptr);
	}

	static VTermAllocatorFunctions default_allocator = {
	.malloc = &default_malloc,
	.free = &default_free,
	};

	VTerm *vterm_new(int rows, int cols)
	{
	return vterm_new_with_allocator(rows, cols, &default_allocator, NULL);
	}

	VTerm vterm_new_with_allocator(int rows, int cols, VTermAllocatorFunctions funcs, void *allocdata)
	{
	/* Need to bootstrap using the allocator function directly */
	VTerm vt = (funcs->malloc)(sizeof(VTerm), allocdata);

	vt->allocator = funcs;
	vt->allocdata = allocdata;

	vt->rows = rows;
	vt->cols = cols;

	vt->parser_state = NORMAL;

	vt->strbuffer_len = 64;
	vt->strbuffer_cur = 0;
	vt->strbuffer = vterm_allocator_malloc(vt, vt->strbuffer_len);

	vt->outbuffer_len = 64;
	vt->outbuffer_cur = 0;
	vt->outbuffer = vterm_allocator_malloc(vt, vt->outbuffer_len);

	return vt;
	}

	void vterm_free(VTerm *vt)
	{
	if(vt->screen)
	vterm_screen_free(vt->screen);

	if(vt->state)
	vterm_state_free(vt->state);

	vterm_allocator_free(vt, vt->strbuffer);
	vterm_allocator_free(vt, vt->outbuffer);

	vterm_allocator_free(vt, vt);
	}

	INTERNAL void vterm_allocator_malloc(VTerm vt, size_t size)
	{
	return (*vt->allocator->malloc)(size, vt->allocdata);
	}

	INTERNAL void vterm_allocator_free(VTerm vt, void ptr)
	{
	(*vt->allocator->free)(ptr, vt->allocdata);
	}

	void vterm_get_size(const VTerm vt, int rowsp, int *colsp)
	{
	if(rowsp)
	*rowsp = vt->rows;
	if(colsp)
	*colsp = vt->cols;
	}

	void vterm_set_size(VTerm *vt, int rows, int cols)
	{
	vt->rows = rows;
	vt->cols = cols;

	if(vt->parser_callbacks && vt->parser_callbacks->resize)
	(*vt->parser_callbacks->resize)(rows, cols, vt->cbdata);
	}

	void vterm_set_parser_callbacks(VTerm vt, const VTermParserCallbacks callbacks, void *user)
	{
	vt->parser_callbacks = callbacks;
	vt->cbdata = user;
	}

	void vterm_parser_set_utf8(VTerm *vt, int is_utf8)
	{
	vt->mode.utf8 = is_utf8;
	}

	INTERNAL void vterm_push_output_bytes(VTerm vt, const char bytes, size_t len)
	{
	if(len > vt->outbuffer_len - vt->outbuffer_cur) {
	fprintf(stderr, "vterm_push_output(): buffer overflow; truncating output\n");
	len = vt->outbuffer_len - vt->outbuffer_cur;
	}

	memcpy(vt->outbuffer + vt->outbuffer_cur, bytes, len);
	vt->outbuffer_cur += len;
	}

	INTERNAL void vterm_push_output_vsprintf(VTerm vt, const char format, va_list args)
	{
	int written = vsnprintf(vt->outbuffer + vt->outbuffer_cur,
	vt->outbuffer_len - vt->outbuffer_cur,
	format, args);
	vt->outbuffer_cur += written;
	}

	INTERNAL void vterm_push_output_sprintf(VTerm vt, const char format, ...)
	{
	va_list args;
	va_start(args, format);
	vterm_push_output_vsprintf(vt, format, args);
	va_end(args);
	}

	INTERNAL void vterm_push_output_sprintf_ctrl(VTerm vt, unsigned char ctrl, const char fmt, ...)
	{
	if(ctrl >= 0x80 && !vt->mode.ctrl8bit)
	vterm_push_output_sprintf(vt, "\e%c", ctrl - 0x40);
	else
	vterm_push_output_sprintf(vt, "%c", ctrl);

	va_list args;
	va_start(args, fmt);
	vterm_push_output_vsprintf(vt, fmt, args);
	va_end(args);
	}

	INTERNAL void vterm_push_output_sprintf_dcs(VTerm vt, const char fmt, ...)
	{
	if(!vt->mode.ctrl8bit)
	vterm_push_output_sprintf(vt, "\e%c", C1_DCS - 0x40);
	else
	vterm_push_output_sprintf(vt, "%c", C1_DCS);

	va_list args;
	va_start(args, fmt);
	vterm_push_output_vsprintf(vt, fmt, args);
	va_end(args);

	vterm_push_output_sprintf_ctrl(vt, C1_ST, "");
	}

	size_t vterm_output_bufferlen(VTerm *vt)
	{
	return vterm_output_get_buffer_current(vt);
	}

	size_t vterm_output_get_buffer_size(const VTerm *vt)
	{
	return vt->outbuffer_len;
	}

	size_t vterm_output_get_buffer_current(const VTerm *vt)
	{
	return vt->outbuffer_cur;
	}

	size_t vterm_output_get_buffer_remaining(const VTerm *vt)
	{
	return vt->outbuffer_len - vt->outbuffer_cur;
	}

	size_t vterm_output_bufferread(VTerm vt, char buffer, size_t len)
	{
	if(len > vt->outbuffer_cur)
	len = vt->outbuffer_cur;

	memcpy(buffer, vt->outbuffer, len);

	if(len < vt->outbuffer_cur)
	memmove(vt->outbuffer, vt->outbuffer + len, vt->outbuffer_cur - len);

	vt->outbuffer_cur -= len;

	return len;
	}

	VTermValueType vterm_get_attr_type(VTermAttr attr)
	{
	switch(attr) {
	case VTERM_ATTR_BOLD: return VTERM_VALUETYPE_BOOL;
	case VTERM_ATTR_UNDERLINE: return VTERM_VALUETYPE_INT;
	case VTERM_ATTR_ITALIC: return VTERM_VALUETYPE_BOOL;
	case VTERM_ATTR_BLINK: return VTERM_VALUETYPE_BOOL;
	case VTERM_ATTR_REVERSE: return VTERM_VALUETYPE_BOOL;
	case VTERM_ATTR_STRIKE: return VTERM_VALUETYPE_BOOL;
	case VTERM_ATTR_FONT: return VTERM_VALUETYPE_INT;
	case VTERM_ATTR_FOREGROUND: return VTERM_VALUETYPE_COLOR;
	case VTERM_ATTR_BACKGROUND: return VTERM_VALUETYPE_COLOR;
	}
	return 0; /* UNREACHABLE */
	}

	VTermValueType vterm_get_prop_type(VTermProp prop)
	{
	switch(prop) {
	case VTERM_PROP_CURSORVISIBLE: return VTERM_VALUETYPE_BOOL;
	case VTERM_PROP_CURSORBLINK: return VTERM_VALUETYPE_BOOL;
	case VTERM_PROP_ALTSCREEN: return VTERM_VALUETYPE_BOOL;
	case VTERM_PROP_TITLE: return VTERM_VALUETYPE_STRING;
	case VTERM_PROP_ICONNAME: return VTERM_VALUETYPE_STRING;
	case VTERM_PROP_REVERSE: return VTERM_VALUETYPE_BOOL;
	case VTERM_PROP_CURSORSHAPE: return VTERM_VALUETYPE_INT;
	}
	return 0; /* UNREACHABLE */
	}

	void vterm_scroll_rect(VTermRect rect,
	int downward,
	int rightward,
	int (moverect)(VTermRect src, VTermRect dest, void user),
	int (eraserect)(VTermRect rect, int selective, void user),
	void *user)
	{
	VTermRect src;
	VTermRect dest;

	if(abs(downward) >= rect.end_row - rect.start_row \|\|
	abs(rightward) >= rect.end_col - rect.start_col) {
	/* Scroll more than area; just erase the lot */
	(*eraserect)(rect, 0, user);
	return;
	}

	if(rightward >= 0) {
	/* rect: [XXX................]
	* src: [----------------]
	* dest: [----------------]
	*/
	dest.start_col = rect.start_col;
	dest.end_col = rect.end_col - rightward;
	src.start_col = rect.start_col + rightward;
	src.end_col = rect.end_col;
	}
	else {
	/* rect: [................XXX]
	* src: [----------------]
	* dest: [----------------]
	*/
	int leftward = -rightward;
	dest.start_col = rect.start_col + leftward;
	dest.end_col = rect.end_col;
	src.start_col = rect.start_col;
	src.end_col = rect.end_col - leftward;
	}

	if(downward >= 0) {
	dest.start_row = rect.start_row;
	dest.end_row = rect.end_row - downward;
	src.start_row = rect.start_row + downward;
	src.end_row = rect.end_row;
	}
	else {
	int upward = -downward;
	dest.start_row = rect.start_row + upward;
	dest.end_row = rect.end_row;
	src.start_row = rect.start_row;
	src.end_row = rect.end_row - upward;
	}

	if(moverect)
	(*moverect)(dest, src, user);

	if(downward > 0)
	rect.start_row = rect.end_row - downward;
	else if(downward < 0)
	rect.end_row = rect.start_row - downward;

	if(rightward > 0)
	rect.start_col = rect.end_col - rightward;
	else if(rightward < 0)
	rect.end_col = rect.start_col - rightward;

	(*eraserect)(rect, 0, user);
	}

	void vterm_copy_cells(VTermRect dest,
	VTermRect src,
	void (copycell)(VTermPos dest, VTermPos src, void user),
	void *user)
	{
	int downward = src.start_row - dest.start_row;
	int rightward = src.start_col - dest.start_col;

	int init_row, test_row, init_col, test_col;
	int inc_row, inc_col;

	if(downward < 0) {
	init_row = dest.end_row - 1;
	test_row = dest.start_row - 1;
	inc_row = -1;
	}
	else /* downward >= 0 */ {
	init_row = dest.start_row;
	test_row = dest.end_row;
	inc_row = +1;
	}

	if(rightward < 0) {
	init_col = dest.end_col - 1;
	test_col = dest.start_col - 1;
	inc_col = -1;
	}
	else /* rightward >= 0 */ {
	init_col = dest.start_col;
	test_col = dest.end_col;
	inc_col = +1;
	}

	VTermPos pos;
	for(pos.row = init_row; pos.row != test_row; pos.row += inc_row)
	for(pos.col = init_col; pos.col != test_col; pos.col += inc_col) {
	VTermPos srcpos = { pos.row + downward, pos.col + rightward };
	(*copycell)(pos, srcpos, user);
	}
	}