main.c 18 KB
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#include <stm32f4xx.h>
#include <stm32f4xx_rcc.h>
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#include <stm32f4xx_gpio.h>
#include <stm_misc.h>
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#include "std.h"

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#include "misc.h"
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#include "systick.h"
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#include "led.h"
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#include "lcd.h"
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#include "storage.h"
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#include "usb.h"
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static void impl02_c_version() {
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    int x = 0;
    while (x < 400) {
        int y = 0;
        while (y < 400) {
            volatile int z = 0;
            while (z < 400) {
                z = z + 1;
            }
            y = y + 1;
        }
        x = x + 1;
    }
}

void set_bits(__IO uint32_t *addr, uint32_t shift, uint32_t mask, uint32_t value) {
    uint32_t x = *addr;
    x &= ~(mask << shift);
    x |= (value << shift);
    *addr = x;
}

void gpio_init() {
    RCC->AHB1ENR |= RCC_AHB1ENR_CCMDATARAMEN | RCC_AHB1ENR_GPIOCEN | RCC_AHB1ENR_GPIOBEN | RCC_AHB1ENR_GPIOAEN;
}

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/*
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void gpio_pin_af(GPIO_TypeDef *gpio, uint32_t pin, uint32_t af) {
    // set the AF bits for the given pin
    // pins 0-7 use low word of AFR, pins 8-15 use high word
    set_bits(&gpio->AFR[pin >> 3], 4 * (pin & 0x07), 0xf, af);
}
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*/
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static void mma_init() {
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    // XXX
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    RCC->APB1ENR |= RCC_APB1ENR_I2C1EN; // enable I2C1
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    //gpio_pin_init(GPIOB, 6 /* B6 is SCL */, 2 /* AF mode */, 1 /* open drain output */, 1 /* 25 MHz */, 0 /* no pull up or pull down */);
    //gpio_pin_init(GPIOB, 7 /* B7 is SDA */, 2 /* AF mode */, 1 /* open drain output */, 1 /* 25 MHz */, 0 /* no pull up or pull down */);
    //gpio_pin_af(GPIOB, 6, 4 /* AF 4 for I2C1 */);
    //gpio_pin_af(GPIOB, 7, 4 /* AF 4 for I2C1 */);
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    // get clock speeds
    RCC_ClocksTypeDef rcc_clocks;
    RCC_GetClocksFreq(&rcc_clocks);

    // disable the I2C peripheral before we configure it
    I2C1->CR1 &= ~I2C_CR1_PE;

    // program peripheral input clock
    I2C1->CR2 = 4; // no interrupts; 4 MHz (hopefully!) (could go up to 42MHz)

    // configure clock control reg
    uint32_t freq = rcc_clocks.PCLK1_Frequency / (100000 << 1); // want 100kHz, this is the formula for freq
    I2C1->CCR = freq; // standard mode (speed), freq calculated as above

    // configure rise time reg
    I2C1->TRISE = (rcc_clocks.PCLK1_Frequency / 1000000) + 1; // formula for trise, gives maximum rise time

    // enable the I2C peripheral
    I2C1->CR1 |= I2C_CR1_PE;

    // set START bit in CR1 to generate a start cond!
}

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static uint32_t i2c_get_sr() {
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    // must read SR1 first, then SR2, as the read can clear some flags
    uint32_t sr1 = I2C1->SR1;
    uint32_t sr2 = I2C1->SR2;
    return (sr2 << 16) | sr1;
}

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static void mma_restart(uint8_t addr, int write) {
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    // send start condition
    I2C1->CR1 |= I2C_CR1_START;

    // wait for BUSY, MSL and SB --> Slave has acknowledged start condition
    while ((i2c_get_sr() & 0x00030001) != 0x00030001) {
    }

    if (write) {
        // send address and write bit
        I2C1->DR = (addr << 1) | 0;
        // wait for BUSY, MSL, ADDR, TXE and TRA
        while ((i2c_get_sr() & 0x00070082) != 0x00070082) {
        }
    } else {
        // send address and read bit
        I2C1->DR = (addr << 1) | 1;
        // wait for BUSY, MSL and ADDR flags
        while ((i2c_get_sr() & 0x00030002) != 0x00030002) {
        }
    }
}

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static void mma_start(uint8_t addr, int write) {
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    // wait until I2C is not busy
    while (I2C1->SR2 & I2C_SR2_BUSY) {
    }

    // do rest of start
    mma_restart(addr, write);
}

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static void mma_send_byte(uint8_t data) {
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    // send byte
    I2C1->DR = data;
    // wait for TRA, BUSY, MSL, TXE and BTF (byte transmitted)
    int timeout = 1000000;
    while ((i2c_get_sr() & 0x00070084) != 0x00070084) {
        if (timeout-- <= 0) {
            printf("mma_send_byte timed out!\n");
            break;
        }
    }
}

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static uint8_t mma_read_ack() {
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    // enable ACK of received byte
    I2C1->CR1 |= I2C_CR1_ACK;
    // wait for BUSY, MSL and RXNE (byte received)
    while ((i2c_get_sr() & 0x00030040) != 0x00030040) {
    }
    // read and return data
    uint8_t data = I2C1->DR;
    return data;
}

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static uint8_t mma_read_nack() {
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    // disable ACK of received byte (to indicate end of receiving)
    I2C1->CR1 &= (uint16_t)~((uint16_t)I2C_CR1_ACK);
    // last byte should apparently also generate a stop condition
    I2C1->CR1 |= I2C_CR1_STOP;
    // wait for BUSY, MSL and RXNE (byte received)
    while ((i2c_get_sr() & 0x00030040) != 0x00030040) {
    }
    // read and return data
    uint8_t data = I2C1->DR;
    return data;
}

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static void mma_stop() {
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    // send stop condition
    I2C1->CR1 |= I2C_CR1_STOP;
}

#define PYB_USRSW_PORT (GPIOA)
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#define PYB_USRSW_PIN (GPIO_Pin_13)
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void sw_init() {
    // make it an input with pull-up
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    GPIO_InitTypeDef GPIO_InitStructure;
    GPIO_InitStructure.GPIO_Pin = PYB_USRSW_PIN;
    GPIO_InitStructure.GPIO_Mode = GPIO_Mode_IN;
    GPIO_InitStructure.GPIO_PuPd = GPIO_PuPd_UP;
    GPIO_Init(PYB_USRSW_PORT, &GPIO_InitStructure);
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}

int sw_get() {
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    if (PYB_USRSW_PORT->IDR & PYB_USRSW_PIN) {
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        // pulled high, so switch is not pressed
        return 0;
    } else {
        // pulled low, so switch is pressed
        return 1;
    }
}

void __fatal_error(const char *msg) {
    lcd_print_strn("\nFATAL ERROR:\n", 14);
    lcd_print_strn(msg, strlen(msg));

    for (;;) {
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        led_state(PYB_LED_R1, 1);
        led_state(PYB_LED_R2, 0);
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        sys_tick_delay_ms(150);
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        led_state(PYB_LED_R1, 0);
        led_state(PYB_LED_R2, 1);
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        sys_tick_delay_ms(150);
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    }
}

#include "misc.h"
#include "lexer.h"
#include "mpyconfig.h"
#include "parse.h"
#include "compile.h"
#include "runtime.h"

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#if 0
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py_obj_t pyb_delay(py_obj_t count) {
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    sys_tick_delay_ms(rt_get_int(count));
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    return py_const_none;
}

py_obj_t pyb_led(py_obj_t state) {
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    led_state(PYB_LED_G1, rt_is_true(state));
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    return state;
}

py_obj_t pyb_sw() {
    if (sw_get()) {
        return py_const_true;
    } else {
        return py_const_false;
    }
}
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#endif
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#include "ff.h"
FATFS fatfs0;

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/*
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#include "nlr.h"
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void g(uint i) {
    printf("g:%d\n", i);
    if (i & 1) {
        nlr_jump((void*)(42 + i));
    }
}
void f() {
    nlr_buf_t nlr;
    int i;
    for (i = 0; i < 4; i++) {
        printf("f:loop:%d:%p\n", i, &nlr);
        if (nlr_push(&nlr) == 0) {
            // normal
            //printf("a:%p:%p %p %p %u\n", &nlr, nlr.ip, nlr.sp, nlr.prev, nlr.ret_val);
            g(i);
            printf("f:lp:%d:nrm\n", i);
            nlr_pop();
        } else {
            // nlr
            //printf("b:%p:%p %p %p %u\n", &nlr, nlr.ip, nlr.sp, nlr.prev, nlr.ret_val);
            printf("f:lp:%d:nlr:%d\n", i, (int)nlr.ret_val);
        }
    }
}
void nlr_test() {
    f(1);
}
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*/

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void fatality() {
    led_state(PYB_LED_R1, 1);
    led_state(PYB_LED_G1, 1);
    led_state(PYB_LED_R2, 1);
    led_state(PYB_LED_G2, 1);
}

static const char *fresh_boot_py =
"# boot.py -- run on boot-up\n"
"# can run arbitrary Python, but best to keep it minimal\n"
"\n"
"pyb.source_dir('/src')\n"
"pyb.main('main.py')\n"
"#pyb.usb_usr('VCP')\n"
"#pyb.usb_msd(True, 'dual partition')\n"
"#pyb.flush_cache(False)\n"
"#pyb.error_log('error.txt')\n"
;

// get lots of info about the board
static void board_info() {
    // get and print clock speeds
    // SYSCLK=168MHz, HCLK=168MHz, PCLK1=42MHz, PCLK2=84MHz
    {
        RCC_ClocksTypeDef rcc_clocks;
        RCC_GetClocksFreq(&rcc_clocks);
        printf("S=%lu\nH=%lu\nP1=%lu\nP2=%lu\n", rcc_clocks.SYSCLK_Frequency, rcc_clocks.HCLK_Frequency, rcc_clocks.PCLK1_Frequency, rcc_clocks.PCLK2_Frequency);
    }

    // to print info about memory
    {
        extern void *_sidata;
        extern void *_sdata;
        extern void *_edata;
        extern void *_sbss;
        extern void *_ebss;
        extern void *_estack;
        extern void *_etext;
        extern void *_heap_start;
        printf("_sidata=%p\n", &_sidata);
        printf("_sdata=%p\n", &_sdata);
        printf("_edata=%p\n", &_edata);
        printf("_sbss=%p\n", &_sbss);
        printf("_ebss=%p\n", &_ebss);
        printf("_estack=%p\n", &_estack);
        printf("_etext=%p\n", &_etext);
        printf("_heap_start=%p\n", &_heap_start);
    }

    // free space on flash
    {
        DWORD nclst;
        FATFS *fatfs;
        f_getfree("0:", &nclst, &fatfs);
        printf("free=%u\n", (uint)(nclst * fatfs->csize * 512));
    }
}

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int main() {
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    // TODO disable JTAG
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    // basic sub-system init
    sys_tick_init();
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    gpio_init();
    led_init();
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    // turn on LED to indicate bootup
    led_state(PYB_LED_G1, 1);

    // more sub-system init
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    sw_init();
    lcd_init();
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    storage_init();
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    // Python init
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    //qstr_init();
    //rt_init();
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    // print a message
    printf(" micro py board\n");

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    // local filesystem init
    {
        // try to mount the flash
        FRESULT res = f_mount(&fatfs0, "0:", 1);
        if (res == FR_OK) {
            // mount sucessful
        } else if (res == FR_NO_FILESYSTEM) {
            // no filesystem, so create a fresh one

            // LED on to indicate creation of LFS
            led_state(PYB_LED_R2, 1);
            uint32_t stc = sys_tick_counter;

            res = f_mkfs("0:", 0, 0);
            if (res == FR_OK) {
                // success creating fresh LFS
            } else {
                __fatal_error("could not create LFS");
            }

            // keep LED on for at least 100ms
            sys_tick_wait_at_least(stc, 100);
            led_state(PYB_LED_R2, 0);
        } else {
            __fatal_error("could not access LFS");
        }
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    }

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    // make sure we have a /boot.py
    {
        FILINFO fno;
        FRESULT res = f_stat("0:/boot.py", &fno);
        if (res == FR_OK) {
            if (fno.fattrib & AM_DIR) {
                // exists as a directory
                // TODO handle this case
                // see http://elm-chan.org/fsw/ff/img/app2.c for a "rm -rf" implementation
            } else {
                // exists as a file, good!
            }
        } else {
            // doesn't exist, create fresh file

            // LED on to indicate creation of boot.py
            led_state(PYB_LED_R2, 1);
            uint32_t stc = sys_tick_counter;

            FIL fp;
            f_open(&fp, "0:/boot.py", FA_WRITE | FA_CREATE_ALWAYS);
            UINT n;
            f_write(&fp, fresh_boot_py, sizeof(fresh_boot_py), &n);
            // TODO check we could write n bytes
            f_close(&fp);

            // keep LED on for at least 100ms
            sys_tick_wait_at_least(stc, 100);
            led_state(PYB_LED_R2, 0);
        }
    }

    // run /boot.py
    if (0) {
        FIL fp;
        f_open(&fp, "0:/boot.py", FA_READ);
        UINT n;
        char buf[20];
        f_read(&fp, buf, 18, &n);
        buf[n + 1] = 0;
        printf("read %d\n%s", n, buf);
        f_close(&fp);
    }

    // turn boot-up LED off
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    led_state(PYB_LED_G1, 0);
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    // USB
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    if (1) {
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        usb_init();
    }

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    //printf("init;al=%u\n", m_get_total_bytes_allocated()); // 1600, due to qstr_init
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    //sys_tick_delay_ms(1000);
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    #if 0
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    // Python!
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    if (0) {
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        //const char *pysrc = "def f():\n  x=x+1\nprint(42)\n";
        const char *pysrc =
            // impl01.py
            /*
            "x = 0\n"
            "while x < 400:\n"
            "    y = 0\n"
            "    while y < 400:\n"
            "        z = 0\n"
            "        while z < 400:\n"
            "            z = z + 1\n"
            "        y = y + 1\n"
            "    x = x + 1\n";
            */
            // impl02.py
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            /*
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            "#@micropython.native\n"
            "def f():\n"
            "    x = 0\n"
            "    while x < 400:\n"
            "        y = 0\n"
            "        while y < 400:\n"
            "            z = 0\n"
            "            while z < 400:\n"
            "                z = z + 1\n"
            "            y = y + 1\n"
            "        x = x + 1\n"
            "f()\n";
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            */
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            /*
            "print('in python!')\n"
            "x = 0\n"
            "while x < 4:\n"
            "    pyb_led(True)\n"
            "    pyb_delay(201)\n"
            "    pyb_led(False)\n"
            "    pyb_delay(201)\n"
            "    x = x + 1\n"
            "print('press me!')\n"
            "while True:\n"
            "    pyb_led(pyb_sw())\n";
            */
            /*
            // impl16.py
            "@micropython.asm_thumb\n"
            "def delay(r0):\n"
            "    b(loop_entry)\n"
            "    label(loop1)\n"
            "    movw(r1, 55999)\n"
            "    label(loop2)\n"
            "    subs(r1, r1, 1)\n"
            "    cmp(r1, 0)\n"
            "    bgt(loop2)\n"
            "    subs(r0, r0, 1)\n"
            "    label(loop_entry)\n"
            "    cmp(r0, 0)\n"
            "    bgt(loop1)\n"
            "print('in python!')\n"
            "@micropython.native\n"
            "def flash(n):\n"
            "    x = 0\n"
            "    while x < n:\n"
            "        pyb_led(True)\n"
            "        delay(249)\n"
            "        pyb_led(False)\n"
            "        delay(249)\n"
            "        x = x + 1\n"
            "flash(20)\n";
            */
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            // impl18.py
            /*
            "# basic exceptions\n"
            "x = 1\n"
            "try:\n"
            "    x.a()\n"
            "except:\n"
            "    print(x)\n";
            */
            // impl19.py
            "# for loop\n"
            "def f():\n"
            "    for x in range(400):\n"
            "        for y in range(400):\n"
            "            for z in range(400):\n"
            "                pass\n"
            "f()\n";
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        py_lexer_t *lex = py_lexer_from_str_len("<>", pysrc, strlen(pysrc), false);

        if (0) {
            while (!py_lexer_is_kind(lex, PY_TOKEN_END)) {
                py_token_show(py_lexer_cur(lex));
                py_lexer_to_next(lex);
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                sys_tick_delay_ms(1000);
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            }
        } else {
            // nalloc=1740;6340;6836 -> 140;4600;496 bytes for lexer, parser, compiler
            printf("lex; al=%u\n", m_get_total_bytes_allocated());
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            sys_tick_delay_ms(1000);
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            py_parse_node_t pn = py_parse(lex, 0);
            //printf("----------------\n");
            printf("pars;al=%u\n", m_get_total_bytes_allocated());
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            sys_tick_delay_ms(1000);
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            //parse_node_show(pn, 0);
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            py_compile(pn, false);
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            printf("comp;al=%u\n", m_get_total_bytes_allocated());
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            sys_tick_delay_ms(1000);
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            if (1) {
                // execute it!

                // add some functions to the python namespace
                rt_store_name(qstr_from_str_static("pyb_delay"), rt_make_function_1(pyb_delay));
                rt_store_name(qstr_from_str_static("pyb_led"), rt_make_function_1(pyb_led));
                rt_store_name(qstr_from_str_static("pyb_sw"), rt_make_function_0(pyb_sw));

                py_obj_t module_fun = rt_make_function_from_id(1);

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                // flash once
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                led_state(PYB_LED_G1, 1);
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                sys_tick_delay_ms(100);
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                led_state(PYB_LED_G1, 0);
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                nlr_buf_t nlr;
                if (nlr_push(&nlr) == 0) {
                    py_obj_t ret = rt_call_function_0(module_fun);
                    printf("done! got: ");
                    py_obj_print(ret);
                    printf("\n");
                    nlr_pop();
                } else {
                    // uncaught exception
                    printf("exception: ");
                    py_obj_print((py_obj_t)nlr.ret_val);
                    printf("\n");
                }

                // flash once
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                led_state(PYB_LED_G1, 1);
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                sys_tick_delay_ms(100);
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                led_state(PYB_LED_G1, 0);
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                sys_tick_delay_ms(1000);
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                printf("nalloc=%u\n", m_get_total_bytes_allocated());
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                sys_tick_delay_ms(1000);
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            }
        }
    }
    #endif

    // benchmark C version of impl02.py
    if (0) {
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        led_state(PYB_LED_G1, 1);
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        sys_tick_delay_ms(100);
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        led_state(PYB_LED_G1, 0);
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        impl02_c_version();
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        led_state(PYB_LED_G1, 1);
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        sys_tick_delay_ms(100);
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        led_state(PYB_LED_G1, 0);
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    }

    // MMA testing
    if (0) {
        printf("1");
        mma_init();
        printf("2");
        mma_start(0x4c, 1);
        printf("3");
        mma_send_byte(0);
        printf("4");
        mma_stop();
        printf("5");
        mma_start(0x4c, 1);
        printf("6");
        mma_send_byte(0);
        printf("7");
        mma_restart(0x4c, 0);
        for (int i = 0; i <= 0xa; i++) {
            int data;
            if (i == 0xa) {
                data = mma_read_nack();
            } else {
                data = mma_read_ack();
            }
            printf(" %02x", data);
        }
        printf("\n");

        mma_start(0x4c, 1);
        mma_send_byte(7); // mode
        mma_send_byte(1); // active mode
        mma_stop();

        for (;;) {
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            sys_tick_delay_ms(500);
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            mma_start(0x4c, 1);
            mma_send_byte(0);
            mma_restart(0x4c, 0);
            for (int i = 0; i <= 3; i++) {
                int data;
                if (i == 3) {
                    data = mma_read_nack();
                    printf(" %02x\n", data);
                } else {
                    data = mma_read_ack() & 0x3f;
                    if (data & 0x20) {
                        data |= 0xc0;
                    }
                    printf(" % 2d", data);
                }
            }
        }
    }

    // SD card testing
    if (0) {
        //sdio_init();
    }

    int i = 0;
    int n = 0;
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    uint32_t stc = sys_tick_counter;
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    for (;;) {
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        sys_tick_delay_ms(10);
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        if (sw_get()) {
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            led_state(PYB_LED_G1, 1);
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            i = 1 - i;
            if (i) {
                printf(" angel %05x.\n", n);
                //usb_vcp_send("hello!\r\n", 8);
            } else {
                printf(" mishka %4u.\n", n);
                //usb_vcp_send("angel!\r\n", 8);
            }
            n += 1;
        } else {
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            led_state(PYB_LED_G1, 0);
        }
        if (sys_tick_has_passed(stc, 500)) {
            stc = sys_tick_counter;
            led_toggle(PYB_LED_G2);
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        }
    }

    return 0;
}