| /Zephyr-latest/tests/lib/cmsis_dsp/matrix/src/ |
| D | unary_f64.c | 35 uint16_t rows, columns; in test_op2() local
60 columns = *dims++; in test_op2()
64 mat_in1.numCols = mat_in2.numCols = mat_out.numCols = columns; in test_op2()
68 rows * columns * sizeof(float64_t)); in test_op2()
71 rows * columns * sizeof(float64_t)); in test_op2()
88 mat_out.pData += (rows * columns); in test_op2()
118 uint16_t rows, columns; in test_op1() local
138 columns = *dims++; in test_op1()
142 mat_in1.numCols = columns; in test_op1()
143 mat_out.numRows = transpose ? columns : rows; in test_op1()
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| D | unary_f16.c | 47 uint16_t rows, columns; in test_op2() local
72 columns = *dims++; in test_op2()
76 mat_in1.numCols = mat_in2.numCols = mat_out.numCols = columns; in test_op2()
80 rows * columns * sizeof(float16_t)); in test_op2()
83 rows * columns * sizeof(float16_t)); in test_op2()
104 mat_out.pData += (rows * columns); in test_op2()
137 uint16_t rows, columns; in test_op1() local
157 columns = *dims++; in test_op1()
161 mat_in1.numCols = columns; in test_op1()
162 mat_out.numRows = transpose ? columns : rows; in test_op1()
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| D | unary_f32.c | 43 uint16_t rows, columns; in test_op2() local
68 columns = *dims++; in test_op2()
72 mat_in1.numCols = mat_in2.numCols = mat_out.numCols = columns; in test_op2()
76 rows * columns * sizeof(float32_t)); in test_op2()
79 rows * columns * sizeof(float32_t)); in test_op2()
100 mat_out.pData += (rows * columns); in test_op2()
133 uint16_t rows, columns; in test_op1() local
153 columns = *dims++; in test_op1()
157 mat_in1.numCols = columns; in test_op1()
158 mat_out.numRows = transpose ? columns : rows; in test_op1()
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| D | unary_q15.c | 35 uint16_t rows, columns; in test_op2() local
60 columns = *dims++; in test_op2()
64 mat_in1.numCols = mat_in2.numCols = mat_out.numCols = columns; in test_op2()
67 memcpy(mat_in1.pData, in_com1, rows * columns * sizeof(q15_t)); in test_op2()
68 memcpy(mat_in2.pData, in_com2, rows * columns * sizeof(q15_t)); in test_op2()
89 mat_out.pData += (rows * columns); in test_op2()
119 uint16_t rows, columns; in test_op1() local
139 columns = *dims++; in test_op1()
143 mat_in1.numCols = columns; in test_op1()
144 mat_out.numRows = transpose ? columns : rows; in test_op1()
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| D | unary_q31.c | 35 uint16_t rows, columns; in test_op2() local
60 columns = *dims++; in test_op2()
64 mat_in1.numCols = mat_in2.numCols = mat_out.numCols = columns; in test_op2()
67 memcpy(mat_in1.pData, in_com1, rows * columns * sizeof(q31_t)); in test_op2()
68 memcpy(mat_in2.pData, in_com2, rows * columns * sizeof(q31_t)); in test_op2()
89 mat_out.pData += (rows * columns); in test_op2()
119 uint16_t rows, columns; in test_op1() local
139 columns = *dims++; in test_op1()
143 mat_in1.numCols = columns; in test_op1()
144 mat_out.numRows = transpose ? columns : rows; in test_op1()
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| D | binary_f32.c | 32 uint16_t rows, internal, columns; in test_op2() local
58 columns = *dims++; in test_op2()
65 mat_in2.numCols = columns; in test_op2()
68 mat_out.numCols = columns; in test_op2()
75 internal * columns * sizeof(float32_t)); in test_op2()
92 mat_out.pData += (rows * columns); in test_op2()
123 uint16_t rows, internal, columns; in test_op2c() local
149 columns = *dims++; in test_op2c()
156 mat_in2.numCols = columns; in test_op2c()
159 mat_out.numCols = columns; in test_op2c()
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| D | binary_f64.c | 32 uint16_t rows, internal, columns; in test_op2() local
58 columns = *dims++; in test_op2()
65 mat_in2.numCols = columns; in test_op2()
68 mat_out.numCols = columns; in test_op2()
75 internal * columns * sizeof(float64_t)); in test_op2()
92 mat_out.pData += (rows * columns); in test_op2()
128 uint16_t rows, internal, columns;
154 columns = *dims++;
161 mat_in2.numCols = columns;
164 mat_out.numCols = columns;
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| D | binary_q31.c | 32 uint16_t rows, internal, columns; in test_op2() local
58 columns = *dims++; in test_op2()
65 mat_in2.numCols = columns; in test_op2()
68 mat_out.numCols = columns; in test_op2()
75 internal * columns * sizeof(q31_t)); in test_op2()
92 mat_out.pData += (rows * columns); in test_op2()
121 uint16_t rows, internal, columns; in test_op2c() local
147 columns = *dims++; in test_op2c()
154 mat_in2.numCols = columns; in test_op2c()
157 mat_out.numCols = columns; in test_op2c()
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| D | binary_f16.c | 32 uint16_t rows, internal, columns; in test_op2() local
58 columns = *dims++; in test_op2()
65 mat_in2.numCols = columns; in test_op2()
68 mat_out.numCols = columns; in test_op2()
75 internal * columns * sizeof(float16_t)); in test_op2()
92 mat_out.pData += (rows * columns); in test_op2()
123 uint16_t rows, internal, columns; in test_op2c() local
149 columns = *dims++; in test_op2c()
156 mat_in2.numCols = columns; in test_op2c()
159 mat_out.numCols = columns; in test_op2c()
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| D | binary_q15.c | 34 uint16_t rows, internal, columns; in test_op2() local
63 columns = *dims++; in test_op2()
70 mat_in2.numCols = columns; in test_op2()
73 mat_out.numCols = columns; in test_op2()
80 internal * columns * sizeof(q15_t)); in test_op2()
98 mat_out.pData += (rows * columns); in test_op2()
129 uint16_t rows, internal, columns; in test_op2c() local
158 columns = *dims++; in test_op2c()
165 mat_in2.numCols = columns; in test_op2c()
168 mat_out.numCols = columns; in test_op2c()
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| D | binary_q7.c | 30 uint16_t rows, internal, columns; in test_op2() local
59 columns = *dims++; in test_op2()
66 mat_in2.numCols = columns; in test_op2()
69 mat_out.numCols = columns; in test_op2()
76 internal * columns * sizeof(q7_t)); in test_op2()
94 mat_out.pData += (rows * columns); in test_op2()
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| D | unary_q7.c | 31 uint16_t rows, columns; in test_op1() local
51 columns = *dims++; in test_op1()
55 mat_in1.numCols = columns; in test_op1()
56 mat_out.numRows = transpose ? columns : rows; in test_op1()
57 mat_out.numCols = transpose ? rows : columns; in test_op1()
60 memcpy(mat_in1.pData, in_com1, rows * columns * sizeof(q7_t)); in test_op1()
76 mat_out.pData += (rows * columns); in test_op1()
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| /Zephyr-latest/drivers/auxdisplay/ |
| D | auxdisplay_serlcd.c | 185 const uint16_t columns = capabilities.columns; in auxdisplay_serlcd_cursor_position_set() local
203 if (x < 0 || x >= columns) { in auxdisplay_serlcd_cursor_position_set()
222 const int new_x = (data->cursor_x + x) % columns; in auxdisplay_serlcd_cursor_position_set()
223 const int new_y = (data->cursor_y + y + x / columns) % rows; in auxdisplay_serlcd_cursor_position_set()
224 const uint16_t column = new_x < 0 ? new_x + columns : new_x; in auxdisplay_serlcd_cursor_position_set()
324 if (data->cursor_x >= config->capabilities.columns) { in auxdisplay_serlcd_advance_current_position()
411 .columns = DT_INST_PROP(inst, columns), \
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| D | auxdisplay_pt6314.c | 177 } else if (x >= config->capabilities.columns || y >= config->capabilities.rows) { in auxdisplay_pt6314_cursor_position_set()
254 if (data->cursor_x == config->capabilities.columns) { in auxdisplay_pt6314_write()
305 .columns = DT_INST_PROP(n, columns), \
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| /Zephyr-latest/tests/drivers/build_all/auxdisplay/ |
| D | i2c_devices.overlay | 31 columns = <16>;
41 columns = <16>;
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| D | uart_devices.overlay | 27 columns = <20>;
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| D | spi_devices.overlay | 39 columns = <20>;
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| /Zephyr-latest/samples/boards/phytec/reel_board/mesh_badge/src/ |
| D | reel_board.c | 46 uint8_t columns; member
48 [FONT_BIG] = { .columns = 12 },
49 [FONT_MEDIUM] = { .columns = 16 },
50 [FONT_SMALL] = { .columns = 25 },
78 uint8_t line[fonts[FONT_SMALL].columns + 1]; in print_line()
83 len = MIN(len, fonts[font_size].columns); in print_line()
88 pad = (fonts[font_size].columns - len) / 2U; in print_line()
107 for (i = 0; i <= fonts[font].columns; i++) { in get_len()
127 return fonts[font].columns; in get_len()
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| /Zephyr-latest/drivers/display/ |
| D | Kconfig.nrf_led_matrix | 11 Enable driver for a LED matrix with rows and columns driven by
14 Assignment of GPIOs to rows and columns and the mapping of those
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| /Zephyr-latest/samples/drivers/auxdisplay/boards/ |
| D | esp32c3_devkitm.overlay | 16 columns = <20>;
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| D | nucleo_f746zg.overlay | 11 columns = <20>;
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| D | esp_wrover_kit.overlay | 18 columns = <16>;
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| /Zephyr-latest/doc/services/input/ |
| D | gpio-kbd.rst | 12 row GPIOs (inputs) and selects on the columns GPIOs (output).
46 GPIOs for columns that are not currently selected are configured in high
57 - configuring the driver to drive unselected columns GPIO to inactive state
62 Matrixes with diodes going from rows to columns must use pull-ups on rows and
63 active low columns.
86 Matrixes with diodes going from columns to rows must use pull-downs on rows and
87 active high columns.
117 instead idle by selecting all columns and keep polling on the row GPIOs, which
134 In more extreme cases, such as if the columns are using a multiplexer and it's
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| /Zephyr-latest/scripts/tests/twister_blackbox/ |
| D | test_output.py | 149 columns = line.split()
150 if len(columns) == 8:
152 match = re.fullmatch(regex_line[i], columns[i])
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| /Zephyr-latest/samples/drivers/led/is31fl3733/ |
| D | Kconfig | 15 int "Number of columns in IS31FL3733 matrix"
|
