/**************************************************************************/ /* */ /* Copyright (c) Microsoft Corporation. All rights reserved. */ /* */ /* This software is licensed under the Microsoft Software License */ /* Terms for Microsoft Azure RTOS. Full text of the license can be */ /* found in the LICENSE file at https://aka.ms/AzureRTOS_EULA */ /* and in the root directory of this software. */ /* */ /**************************************************************************/ /**************************************************************************/ /**************************************************************************/ /** */ /** GUIX Component */ /** */ /** Display Management (Display) */ /** */ /**************************************************************************/ #define GX_SOURCE_CODE /* Include necessary system files. */ #include "gx_api.h" #include "gx_system.h" #include "gx_utility.h" #include "gx_display.h" #define DRAW_PIXEL if (alpha & mask) \ { \ *put = text_color; \ } \ put++; \ mask = mask >> 1; #if defined(GX_BRUSH_ALPHA_SUPPORT) #define BLEND_PIXEL if (alpha & mask) \ { \ blend_func(context, xval, yval, text_color, brush_alpha); \ } \ xval++; \ mask = mask >> 1; #endif /**************************************************************************/ /* */ /* FUNCTION RELEASE */ /* */ /* _gx_display_driver_565rgb_rotated_glyph_1bit_draw PORTABLE C */ /* 6.1.3 */ /* AUTHOR */ /* */ /* Kenneth Maxwell, Microsoft Corporation */ /* */ /* DESCRIPTION */ /* */ /* This functions draw monochrome font on 16bpp canvas, clipped to */ /* one viewport. */ /* */ /* INPUT */ /* */ /* context Draw context */ /* draw_area The region bound by the */ /* rectangle where the glyph */ /* is drawn */ /* map_offset X,Y offset into the glyph map */ /* glyph Pointer to the glyph */ /* */ /* OUTPUT */ /* */ /* None */ /* */ /* CALLS */ /* */ /* [gx_display_driver_pixel_blend] Basic display driver pixel */ /* blend function */ /* */ /* CALLED BY */ /* */ /* GUIX internal code */ /* */ /* RELEASE HISTORY */ /* */ /* DATE NAME DESCRIPTION */ /* */ /* 12-31-2020 Kenneth Maxwell Initial Version 6.1.3 */ /* */ /**************************************************************************/ VOID _gx_display_driver_565rgb_rotated_glyph_1bit_draw(GX_DRAW_CONTEXT *context, GX_RECTANGLE *draw_area, GX_POINT *map_offset, GX_CONST GX_GLYPH *glyph) { /* GX_DISPLAY *display;*/ GX_UBYTE *glyph_row; GX_UBYTE *glyph_data; UINT row; UINT pixel_per_row; UINT pixel_in_first_byte; UINT pixel_in_last_byte = 0; USHORT text_color; UINT y_height; GX_UBYTE alpha; UINT glyph_width; USHORT *put; UINT num_bytes; UINT num_bits; USHORT *line_start; GX_UBYTE mask, init_mask; UINT i; GX_VALUE rotated_map_offset_x; GX_VALUE rotated_map_offset_y; GX_VALUE rotated_draw_left; GX_VALUE rotated_draw_top; #if defined(GX_BRUSH_ALPHA_SUPPORT) GX_UBYTE brush_alpha; INT xval, yval; VOID (*blend_func)(GX_DRAW_CONTEXT *, INT, INT, GX_COLOR, GX_UBYTE); brush_alpha = context -> gx_draw_context_brush.gx_brush_alpha; if (brush_alpha == 0) { return; } blend_func = _gx_display_driver_565rgb_pixel_blend; #endif text_color = (USHORT)context -> gx_draw_context_brush.gx_brush_line_color; pixel_per_row = (UINT)(draw_area -> gx_rectangle_bottom - draw_area -> gx_rectangle_top + 1); y_height = (UINT)(draw_area -> gx_rectangle_right - draw_area -> gx_rectangle_left + 1); /* Find the width of the glyph, in terms of bytes */ glyph_width = glyph -> gx_glyph_height; /* Make it byte-aligned. */ glyph_width = (glyph_width + 7) >> 3; if (context -> gx_draw_context_display -> gx_display_rotation_angle == GX_SCREEN_ROTATION_CW) { rotated_draw_left = draw_area -> gx_rectangle_top; rotated_draw_top = (GX_VALUE)(context -> gx_draw_context_canvas -> gx_canvas_x_resolution - draw_area -> gx_rectangle_right - 1); rotated_map_offset_x = map_offset -> gx_point_y; rotated_map_offset_y = (GX_VALUE)(glyph -> gx_glyph_width - map_offset -> gx_point_x - (GX_VALUE)y_height); } else { rotated_draw_left = (GX_VALUE)(context -> gx_draw_context_canvas -> gx_canvas_display_offset_y - draw_area -> gx_rectangle_bottom - 1); rotated_draw_top = draw_area -> gx_rectangle_left; rotated_map_offset_x = (GX_VALUE)(glyph -> gx_glyph_height - map_offset -> gx_point_y - (GX_VALUE)pixel_per_row); rotated_map_offset_y = map_offset -> gx_point_x; } /* Compute the number of useful bytes from the glyph this routine is going to use. Because of map_offset, the first byte may contain pixel bits we don't need to draw; And the width of the draw_area may produce part of the last byte in the row to be ignored. */ num_bytes = (UINT)(((INT)rotated_map_offset_x + (INT)pixel_per_row + 7) >> 3); /* Take into account if map_offset specifies the number of bytes to ignore from the beginning of the row. */ num_bytes -= ((UINT)(rotated_map_offset_x)) >> 3; /* Compute the number of pixels to draw from the first byte of the glyph data. */ pixel_in_first_byte = (UINT)(8 - ((rotated_map_offset_x) & 0x7)); init_mask = (GX_UBYTE)(1 << (pixel_in_first_byte - 1)); /* Compute the number of pixels to draw from the last byte, if there are more than one byte in a row. */ if (num_bytes != 1) { pixel_in_last_byte = ((UINT)rotated_map_offset_x + pixel_per_row) & 0x7; if (pixel_in_last_byte == 0) { pixel_in_last_byte = 8; } } else { pixel_in_first_byte = pixel_per_row; } glyph_row = (GX_UBYTE *)glyph -> gx_glyph_map; if (rotated_map_offset_y) { glyph_row = (GX_UBYTE *)(glyph_row + ((INT)glyph_width * (INT)(rotated_map_offset_y))); } glyph_row += (rotated_map_offset_x >> 3); line_start = (USHORT *)context -> gx_draw_context_memory; line_start += context -> gx_draw_context_pitch * (rotated_draw_top); line_start += rotated_draw_left; #if defined(GX_BRUSH_ALPHA_SUPPORT) if (brush_alpha != 0xff) { yval = rotated_draw_top; for (row = 0; row < y_height; row++) { xval = rotated_draw_left; glyph_data = glyph_row; alpha = *(glyph_data); mask = init_mask; num_bits = pixel_in_first_byte; for (i = 0; i < num_bytes; i++) { if ((i == (num_bytes - 1)) && (num_bytes > 1)) { num_bits = pixel_in_last_byte; } switch (num_bits) { case 8: BLEND_PIXEL; /* fallthrough */ case 7: BLEND_PIXEL; /* fallthrough */ case 6: BLEND_PIXEL; /* fallthrough */ case 5: BLEND_PIXEL; /* fallthrough */ case 4: BLEND_PIXEL; /* fallthrough */ case 3: BLEND_PIXEL; /* fallthrough */ case 2: BLEND_PIXEL; /* fallthrough */ default: if (alpha & mask) { blend_func(context, xval, yval, text_color, brush_alpha); } xval++; break; } glyph_data++; alpha = *(glyph_data); num_bits = 8; mask = 0x80; } glyph_row += glyph_width; yval++; } } else { #endif for (row = 0; row < y_height; row++) { glyph_data = glyph_row; alpha = *(glyph_data); mask = init_mask; num_bits = pixel_in_first_byte; put = line_start; for (i = 0; i < num_bytes; i++) { if ((i == (num_bytes - 1)) && (num_bytes > 1)) { num_bits = pixel_in_last_byte; } switch (num_bits) { case 8: DRAW_PIXEL; /* fallthrough */ case 7: DRAW_PIXEL; /* fallthrough */ case 6: DRAW_PIXEL; /* fallthrough */ case 5: DRAW_PIXEL; /* fallthrough */ case 4: DRAW_PIXEL; /* fallthrough */ case 3: DRAW_PIXEL; /* fallthrough */ case 2: DRAW_PIXEL; /* fallthrough */ default: if (alpha & mask) { *put = text_color; } put++; break; } glyph_data++; alpha = *(glyph_data); num_bits = 8; mask = 0x80; } glyph_row += glyph_width; line_start += context -> gx_draw_context_pitch; } #if defined(GX_BRUSH_ALPHA_SUPPORT) } #endif return; }